CN105718102B - Touch sensor assemblies and door with touch sensor assemblies - Google Patents
Touch sensor assemblies and door with touch sensor assemblies Download PDFInfo
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- CN105718102B CN105718102B CN201510964815.6A CN201510964815A CN105718102B CN 105718102 B CN105718102 B CN 105718102B CN 201510964815 A CN201510964815 A CN 201510964815A CN 105718102 B CN105718102 B CN 105718102B
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- sensor
- touch
- touch sensor
- conductive foil
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Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D29/00—Arrangement or mounting of control or safety devices
- F25D29/005—Mounting of control devices
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/03—Arrangements for converting the position or the displacement of a member into a coded form
- G06F3/041—Digitisers, e.g. for touch screens or touch pads, characterised by the transducing means
- G06F3/0414—Digitisers, e.g. for touch screens or touch pads, characterised by the transducing means using force sensing means to determine a position
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D23/00—General constructional features
- F25D23/02—Doors; Covers
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D23/00—General constructional features
- F25D23/02—Doors; Covers
- F25D23/028—Details
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D29/00—Arrangement or mounting of control or safety devices
- F25D29/003—Arrangement or mounting of control or safety devices for movable devices
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/03—Arrangements for converting the position or the displacement of a member into a coded form
- G06F3/041—Digitisers, e.g. for touch screens or touch pads, characterised by the transducing means
- G06F3/0412—Digitisers structurally integrated in a display
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/03—Arrangements for converting the position or the displacement of a member into a coded form
- G06F3/041—Digitisers, e.g. for touch screens or touch pads, characterised by the transducing means
- G06F3/0416—Control or interface arrangements specially adapted for digitisers
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0487—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser
- G06F3/0488—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures
-
- H—ELECTRICITY
- H03—ELECTRONIC CIRCUITRY
- H03K—PULSE TECHNIQUE
- H03K17/00—Electronic switching or gating, i.e. not by contact-making and –breaking
- H03K17/94—Electronic switching or gating, i.e. not by contact-making and –breaking characterised by the way in which the control signals are generated
- H03K17/96—Touch switches
- H03K17/962—Capacitive touch switches
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D2400/00—General features of, or devices for refrigerators, cold rooms, ice-boxes, or for cooling or freezing apparatus not covered by any other subclass
- F25D2400/36—Visual displays
- F25D2400/361—Interactive visual displays
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/03—Arrangements for converting the position or the displacement of a member into a coded form
- G06F3/041—Digitisers, e.g. for touch screens or touch pads, characterised by the transducing means
-
- H—ELECTRICITY
- H03—ELECTRONIC CIRCUITRY
- H03K—PULSE TECHNIQUE
- H03K17/00—Electronic switching or gating, i.e. not by contact-making and –breaking
- H03K17/94—Electronic switching or gating, i.e. not by contact-making and –breaking characterised by the way in which the control signals are generated
- H03K17/96—Touch switches
- H03K17/964—Piezo-electric touch switches
-
- H—ELECTRICITY
- H03—ELECTRONIC CIRCUITRY
- H03K—PULSE TECHNIQUE
- H03K2217/00—Indexing scheme related to electronic switching or gating, i.e. not by contact-making or -breaking covered by H03K17/00
- H03K2217/94—Indexing scheme related to electronic switching or gating, i.e. not by contact-making or -breaking covered by H03K17/00 characterised by the way in which the control signal is generated
- H03K2217/96—Touch switches
- H03K2217/9607—Capacitive touch switches
- H03K2217/960755—Constructional details of capacitive touch and proximity switches
Abstract
The present invention relates to touch sensor assemblies and the door with touch sensor assemblies.The present invention touch sensor group include:Sensor outer housing is configured at the rear of the external component for being provided with the operation portion for making user of service touch of household electrical appliance;Sensor pcb is set to the inside of sensor outer housing, and copper film is formed in the upper side of sensor pcb;Touch sensor, touch sensor include metallic plate and ceramic component, and the bottom surfaces of metallic plate are in contact with copper film, and ceramic component is installed on the upper side of metallic plate;Partition forms gauge hole in position corresponding with metallic plate and ceramic component, and the bottom surfaces of partition are attached to the surface of copper film;Conductive foil, the inner lead being powered with ceramic component and the outer lead being powered with metallic plate are printed in the bottom surfaces of conductive foil, and conductive foil is attached to the upper side of partition;And contact site, it protrudes to be formed in the upper side of conductive foil corresponding with the position of inner lead.
Description
This application claims on December 22nd, 2014, to Koran Office's submission, application No. is Korea Spro of 10-2014-0186534
The priority of state's patent application, entire contents are hereby incorporated by reference in the application.
Technical field
The present invention relates to household electrical appliance touch sensor assemblies and with the door of touch sensor assemblies.
Background technology
The touch sensor assemblies for being commonly used for household electrical appliance may include the biography of capacitance type sensor or battery mode
Sensor etc..These sensors detect the touch operation of user of service, and are processed into signal to realize the work of household electrical appliance.
Also, the usually used external component of nearest household electrical appliance is steel or in a manner of having the effect of steel at coating
The external component or glass of reason.Moreover, developing when user of service touches the surface of this external component, can be easy
Identify the touch sensor assemblies of touch action.
On the other hand, refrigerator be can in interior storage space low-temperature storage food household electrical appliances.Pass through for this purpose, refrigerator utilizes
The cold air that is generated with the heat exchange of refrigerant recycled in freeze cycle cools down the inside of storage space, so as to
With the stored food of optimum state keeping.
The inside of above-mentioned refrigerator can be made of refrigerating chamber and freezing chamber, be put in above-mentioned refrigerating chamber and being internally provided with for freezing chamber
The storage members such as frame, drawer, basket.Also, above-mentioned refrigerating chamber and freezing chamber are covered by door.Above-mentioned refrigerator is according to above-mentioned refrigerating chamber
Configuration with freezing chamber and there are many forms of door.
Recently, with advanced and multifunction trend, the appearance of refrigerator is further improved, and with it is a variety of just
The refrigerator of sharp device is listing.
For example, developing the external component for constituting appearance including being formed with steel (steel) or glass or similar with these
Coating raw material, and using in order to allow the display and operating device of various structures that user of service is easy to be operated
Refrigerator.
South Korea logs in special permission the 10-0634365th and discloses the refrigerator based on the prior art as described above.
Invention content
The purpose of the embodiment of the present invention is, provides maintenance and is close to state between external component, accurately to examine
Survey when the external component of touch operation generated external component displacement, to improve discrimination touch sensor assemblies and
Door with touch sensor assemblies.
Also, the purpose of the embodiment of the present invention is, provides the damage that can prevent the sensor controller caused by electrostatic
The manufacturing method of the bad door and door with touch sensor assemblies.
The touch sensor assemblies of the embodiment of the present invention for achieving the above object may include:Sensor outer housing, configuration
In the rear of the external component for being provided with the operation portion for making user of service touch of household electrical appliance;Sensor printed circuit
Plate is set to the inside of the sensor shell, and copper film is formed in the upper side of the sensor printed circuit board;Touch sensing
Device, above-mentioned touch sensor include metallic plate and ceramic component, and the bottom surfaces of above-mentioned metallic plate are in contact with above-mentioned copper film, on
State the upper side that ceramic component is installed on above-mentioned metallic plate;Partition, corresponding with above-mentioned metallic plate and above-mentioned ceramic component
Position forms gauge hole, and the bottom surfaces of above-mentioned partition are attached to the surface of above-mentioned copper film;Conductive foil, with above-mentioned ceramic component
The inner lead of energization and the outer lead being powered with above-mentioned metallic plate are printed in the bottom surfaces of above-mentioned conductive foil, above-mentioned conductive foil
It is attached to the upper side of above-mentioned partition;And contact site, in above-mentioned conductive foil corresponding with the position of above-mentioned inner lead
Upper side protrudes to be formed.
Also, the refrigerator doors of the embodiment of the present invention for achieving the above object are characterised by comprising:External component,
Operation portion for making user of service touch is set;Sensor outer housing is configured at the rear of above-mentioned external component;Touch boosting
Device is combined with the sensor shell in a movable manner, the upper side of above-mentioned touch boost motor and above-mentioned external component
Bottom surfaces be in contact, above-mentioned touch boost motor bottom surfaces formed protruding portion;Sensor pcb is configured at above-mentioned
The inside of sensor outer housing, the upper side that circuit board is quoted from the sensor form copper film;Touch sensor, above-mentioned touch
Sensor includes metallic plate and ceramic component, and the bottom surfaces of above-mentioned metallic plate are in contact with above-mentioned copper film, above-mentioned ceramic component
It is installed on the upper side of above-mentioned metallic plate;Partition is formed in position corresponding with above-mentioned metallic plate and above-mentioned ceramic component and is passed
Sensor hole, the bottom surfaces of above-mentioned partition are attached to the surface of above-mentioned copper film;Conductive foil, the inside being powered with above-mentioned ceramic component
Conducting wire is printed in the bottom surfaces of above-mentioned conductive foil, is attached to the upper side of above-mentioned partition;And contact site, it is led with above-mentioned inside
The upper side of the corresponding above-mentioned conductive foil in position of line protrudes to be formed, and above-mentioned contact site is in contact with above-mentioned protruding portion.
According to an embodiment of the invention, it is produced when user of service touches, and the operation portion in external component or front panel is arranged
Operation portion directly can be improved with this to sensor passes by contact site in the deflection of raw external component or front panel
Touch operation discrimination.
In particular, in forming process, even if the size of the protruding portion set on the touch boost motor at the back side in aforesaid operations portion
Error occurs, above-mentioned protruding portion can also maintain the contact condition with above-mentioned contact site, to which the touch to user of service can be improved
Discrimination.
Also, the operation identification division of above-mentioned touch sensor assemblies by elastomeric element maintenance be tightly attached to external component or
The state of front panel.Therefore, can accurately detect occurred when user of service touches external component or front panel it is above-mentioned outer
Set the displacement of component or front panel, that is, deflection, to have the touch recognition rate for improving the touch operation to user of service
Effect.
Moreover, the sensor controller and touch sensor assemblies that are handled the operation signal of touch sensor assemblies
Phase separation, and be set to and carrying out the display assembly for making to install after the molding frostproof froth n process of door.Therefore, have such as
Lower effect can prevent the touch sensor assemblies caused by electrostatic occurred during manufacturing door to be damaged.Moreover, have
It has the following advantages, what the part touched due to the use of personnel and the sensor control unit maintained to be spaced with sufficient interval
State, it is therefore possible to prevent the damage caused by the electrostatic occurred in use.
Moreover, the back side of front panel is attached to by being equipped with the display cover of touch sensor assemblies, and display
Component is inserted into the inside for being installed on door by the insert port formed in decorative element, has the forward face structure for improving door as a result,
The advantages of.
Also, display cover is installed on accurate position, and the light source of display is made to penetrate display window, to not only
Have the effect of improving the recognition capability of display window, but also has the effect of further improving the forward face structure of door.
Description of the drawings
Fig. 1 is the front view of the refrigerator of one embodiment of the invention.
Fig. 2 is the stereogram of the refrigerator doors of one embodiment of the invention.
Fig. 3 is to show that display assembly is installed on the exploded perspective view of the state of above-mentioned refrigerator doors.
Fig. 4 is the exploded perspective view of the state for the front panel separation for showing above-mentioned refrigerator doors.
Fig. 5 is the touch sensor assemblies for showing one embodiment of the invention, display cover, display assembly, display frame
The exploded perspective view of the integrated structure of frame and frame.
Fig. 6 is the longitudinal sectional view along the 6-6 ' incisions of Fig. 3.
Fig. 7 is the transverse sectional view along the 7-7 ' incisions of Fig. 3.
Fig. 8 is the block diagram for showing sensor pcb and the connection relation of printed circuit boards of monitor.
Fig. 9 is the stereogram for the integrated structure for showing aforementioned display device lid and display frames.
Figure 10 is the exploded perspective view for showing aforementioned display device lid and the integrated structure of touch sensor assemblies.
Figure 11 is the stereogram for the aforementioned display device lid for being equipped with above-mentioned touch sensor assemblies observe from the rear.
Figure 12 is the incision stereogram along the 12-12 ' incisions of Fig. 2.
Figure 13 is the enlarged cross-sectional view of the part A of Figure 12.
Figure 14 is the exploded perspective view for the touch sensor assemblies for observing from the front one embodiment of the invention.
Figure 15 is the exploded perspective view of above-mentioned touch sensor assemblies observe from the rear.
Figure 16 is the longitudinal sectional view of above-mentioned touch sensor assemblies.
Figure 17 is the vertical view (a) and rearview (b) for the sensor pcb for constituting above-mentioned touch sensor assemblies.
Figure 18 is the vertical view for the partition for constituting above-mentioned touch sensor assemblies.
Figure 19 is the vertical view for the conductive foil for constituting above-mentioned touch sensor assemblies.
Figure 20 is the longitudinal sectional view along the 20-20 ' incisions of Figure 19.
Figure 21 is the stereogram for showing to constitute the other structures of the contact site of above-mentioned touch sensor assemblies.
Figure 22 is the rear isometric view for the touch boost motor for constituting above-mentioned touch sensor assemblies.
Figure 23 is the incision stereogram along the 23-23 ' incisions of Fig. 2.
Figure 24 is the enlarged drawing of the part B of Figure 23.
Figure 25 is the enlarged drawing of the C portion of Fig. 7.
Figure 26 is the stereogram for showing to constitute another shape of the elastomeric element of touch sensor assemblies.
Figure 27 is the stereogram for showing to constitute another shape of the elastomeric element of above-mentioned touch sensor assemblies.
Figure 28 is the exploded perspective view for the installation process for showing aforementioned display device component.
Figure 29 is the exploded perspective view of the structure of the display cover and sensor outer housing that show yet another embodiment of the invention.
Figure 30 is the sectional view of the structure for the touch sensor assemblies for showing another embodiment of the present invention.
Figure 31 is to show that the touch sensor assemblies of one embodiment of the invention are installed on point of the structure of the door of other forms
Solve stereogram.
Figure 32 is to show that the touch sensor assemblies of one embodiment of the invention are installed on the decomposition of the structure of air regulator
Stereogram.
Figure 33 is to show that the touch sensor assemblies of one embodiment of the invention are installed on the exploded perspective of the structure of washing machine
Figure.
Figure 34 be show the touch sensor assemblies of one embodiment of the invention be installed on the structure of washed-up decomposition it is vertical
Body figure.
Figure 35 is to show that the touch sensor assemblies of one embodiment of the invention are installed on the exploded perspective of the structure of cooking machine
Figure.
Specific implementation mode
Hereinafter, with reference to attached drawing, specific embodiments of the present invention are described in detail.In particular, for convenience of description and reason
Solution is illustrated for installing touch sensor assemblies in the door of clamshell doors (side by side) refrigerator, and the present invention can fit
For other household electrical appliance including refrigerator of operation can be inputted by touching external component.
Fig. 1 is the front view of the refrigerator of one embodiment of the invention.
As shown, the refrigerator 1 of one embodiment of the invention may include:Casing is used to form storage space;Door 10, installation
It is opened and closed storage space in said machine casing.
Above-mentioned storage space can be divided into left and right and/or upper down space, can be in the front of the opening of above-mentioned storage space
Multiple doors 10 for being opened and closed each storage space are arranged in face.Above-mentioned door 10 can be opened and closed above-mentioned storage in a manner of sliding or rotate
Space is deposited, in the state of closing above-mentioned door 10, the forward face appearance of above-mentioned refrigerator 1 can be formed.
Moreover, display window 11 and touch operation portion 12 can be arranged in a door 10 in above-mentioned multiple doors 10.In detail, may be used
Above-mentioned display window 11 and above-mentioned is arranged in height that is easy to operate in user of service and easily identifying the content for being shown in display window 11
Touch operation portion 12.
Above-mentioned display window 11 is to be shone from the inside of above-mentioned door 10 for the unit to the external working condition for showing refrigerator 1
The outside for the light projection door 10 penetrated simultaneously shows symbol or number etc. so that user of service can confirm in outside.
Above-mentioned touch operation portion 12 is user of service to set the portion that the service condition of refrigerator 1 carries out touch operation
Point, can above-mentioned touch operation portion 12 be set in a part of region of the forward face of above-mentioned refrigerator doors 10.Moreover, can be by including print
The surface of brush or etching etc. processes to realize the part of the detectable pressing operation based on user of service.
Fig. 2 is the stereogram of the refrigerator doors of one embodiment of the invention, and Fig. 3 is to show that display assembly is installed on above-mentioned refrigerator
The exploded perspective view of the state of door, Fig. 4 are the exploded perspective view of the state for the front panel separation for showing above-mentioned refrigerator doors.
Referring to Figure 2 to Figure 4, above-mentioned refrigerator doors 10 may include:Front panel 20 forms the forward face appearance of above-mentioned door 10;Dress
Trim 40,43 is set to the top and bottom of above-mentioned front panel 20;And door lining 30, form the rear appearance of above-mentioned door 10.
In detail, above-mentioned front panel 20 is the component for the forward face for forming above-mentioned refrigerator doors 10, can be by the stainless steel of plate
Raw material are formed.Moreover, in other household electrical appliance in addition to refrigerator, above-mentioned front panel 20 can be used as the external of household electrical appliance
Component.
Above-mentioned front panel 20 can also by addition to stainless steel metal or with being formed with the raw material of texture with metal phase,
As needed, above-mentioned front panel can be formed by glass or raw materials for plastics production.
Above-mentioned front panel 20 can not only form the forward face of above-mentioned door 10, but also as needed, can also form above-mentioned door 10
Side a part, also, can also carry out anti-fingerprint processing or hairline to the surface of above-mentioned front panel 20 and process.
On the other hand, above-mentioned display window 11 can be by being configured at multiple first openings of the subregion of above-mentioned front panel 20
21 form.Above-mentioned display window 11 can be made of the combination of multiple first openings 21, above-mentioned multiple first openings 21 with there are
The mode at dense interval is perforated so that above-mentioned display window 11 can show number or symbol.For example, multiple above-mentioned first
The combination of openings 21 can be configured to 7 sections of (or 88 sections) forms, may also be formed as the service condition or work that can show above-mentioned refrigerator 1
Make the special symbol or image of state, the form of pattern or character.
The position of above-mentioned display window 11 with the second openings 220 as described below and third openings 321 (with reference to Fig. 5)
Position it is corresponding so that the light irradiated from the light emitting diode 313 of display assembly 300 can be put to the outside of above-mentioned door 10
It penetrates.Above-mentioned first openings 21 can be formed as fine size by laser machining or etching etc., and in the state that light does not pass through,
It is formed as the size that can not be easily identified in outside.
On the other hand, transparent seal member 22 can be filled in the inside of above-mentioned first openings 21.Above-mentioned seal member
22 prevent above-mentioned first openings 21 by foreign matters from being blocked.Above-mentioned seal member 22 is formed by silicon or epoxy raw material, on closing
The first openings 21 are stated, and can be formed by the transparent material of light-transmissive.Moreover, the inside of above-mentioned first openings 21 is above-mentioned
Seal member 22 is filled, and also has the effect of to prevent the machined surface of above-mentioned first openings 21 from corroding as a result,.
Above-mentioned seal member 22 can fill the inside of above-mentioned first openings 21 by individual process, can be above-mentioned in progress
Above-mentioned first openings 21 are filled in the surface coating process of front panel 20, or by making transparent sheet be attached to above-mentioned front
The forward face of plate 20 blocks above-mentioned first openings.For example, the anti-fingerprint coating of the forward face setting in above-mentioned front panel 20
Liquid and/or diffusion sheet may also function as the effect of seal member 22.
Above-mentioned touch operation portion 12 is the part being arranged in a manner of making user of service that can carry out touch operation, works as user
When member touches above-mentioned touch operation portion 12, touch sensor assemblies 500 show detectable region.Above-mentioned touch operation portion 12 can
It is processed by etching, printing or other surfaces the forward face in above-mentioned front panel 20 is arranged.Moreover, being touched from external observation is above-mentioned
When touching operation portion 12, the form unobvious in above-mentioned touch operation portion 12.
Above-mentioned door lining 30 is combined with above-mentioned front panel 20, and when closing above-mentioned door 10, above-mentioned door lining 30 is and above-mentioned storage
Deposit the opposite face in the inside in space.Above-mentioned door lining 30 can be provided to configure along edge and be sealed by raw materials for plastics production injection molding
The structure of circle, or installation basket etc..Moreover, if above-mentioned door lining 30 is combined with above-mentioned front panel 20,30 Hes are served as a contrast in above-mentioned door
Space is formed between above-mentioned front panel 20, moreover, the expanding foam solution of heat-insulating material 24 can be used to form in the filling of this space.
Frame 100 can be attached to the rear of above-mentioned front panel 20.Said frame 100 can be arranged in the inside of above-mentioned door 10
It is not filled by the additional space of expanding foam solution.It is formed by above-mentioned additional space by said frame 100 and accommodates display cover
200, display assembly 300, touch sensor assemblies 500, display frames 400 etc..
Above-mentioned decorative element 40,43 is to form the upper side of above-mentioned door 10 and the component of bottom surfaces, above-mentioned decorative element 40,
43 respectively masking be formed in the upper end of above-mentioned front panel 20 and the opening portion of lower end and be formed in the upper end and lower end of lining 30
Opening portion.
In above-mentioned decorative element 40,43, insert port is formed in the decorative element 40 being combined with the upper end of above-mentioned door 10
41, above-mentioned insert port 41 is covered by insertion lid 42.Above-mentioned insert port 41 is formed with by above-mentioned front panel 20 and said frame 100
Above-mentioned additional space be connected.Moreover, when assembling above-mentioned door 10, aforementioned display device component 300 can be to show with above-mentioned
Show the state that device frame 400 is combined to be inserted in the inside of said frame 100 by above-mentioned insert port 41.For this purpose, above-mentioned insert
Entrance 41 has the size that can be inserted into aforementioned display device frame 400, and can be located at the surface of aforementioned display device lid 200.
On the other hand, though it is not illustrated, but can the one side edge of above-mentioned decorative element 40 formed for make as
State the hinge hole (not shown) of the hinge perforation of the rotary shaft of door 10.Moreover, making to guide said frame 100 by above-mentioned hinge hole
The electric wire of inside extend, to electronic unit supply power supply said frame 100 inside, and working signal can be received and dispatched.
Can door handle 44 be set in the decorative element 43 being combined with the lower end of above-mentioned door 10.Above-mentioned door handle 44 can pass through
A part for decorative element 43 is recessed with pocket shape, also, user of service can be by holding on made of above-mentioned recess
Door handle 44 is stated to make above-mentioned door 10 rotate.Moreover, the decorative element 43 of the lower end of door 10 may also include for being opened and closed above-mentioned door
10 operating lever 45.In detail, by the operation of aforesaid operations bar 45, resistant door latch assembly 31 is driven, so as to open above-mentioned door
10 or above-mentioned door 10 is made to remain off state.
It is attached with display cover 200 in the rear of above-mentioned front panel 20.Aforementioned display device lid 200 is equipped with hair for guiding
The installation of the display assembly 300 of optical diode 313 (referring to Fig.1 3), aforementioned display device lid 200 can by by double faced adhesive tape or
The bonding component 25 that backing material is formed is applied to be attached to the rear of above-mentioned front panel 20.
It can be installed in the side of aforementioned display device lid 200 for detecting touch operation of the user of service to above-mentioned front panel 20
Touch sensor assemblies 500.Aforementioned display device lid 200 can be attached in the state of being equipped with above-mentioned touch sensor assemblies 500
It in above-mentioned front panel 20.
When aforementioned display device lid 200 is attached to the back side of above-mentioned front panel 20, make to be formed in the upper of above-mentioned front panel 20
It states display window 11 and is mutually aligned with the second openings 220 for being formed in aforementioned display device lid 200.Moreover, in aforementioned display device lid
200 are attached in the state of the back side of above-mentioned front panel 20, and aforementioned display device lid 200 is contained in the inside of said frame 100.
Moreover, aforementioned display device component 300 can be inserted in the state of being installed on aforementioned display device frame 400 by above-mentioned
Entrance 41 is inserted in the inner space of said frame 100.Moreover, aforementioned display device frame 400 and aforementioned display device component 300
Combination be inserted in the insertion space formed by aforementioned display device lid 200.
If aforementioned display device frame 400 is fully inserted into the inside of said frame 100, aforementioned display device component 300
In the rear of the second openings 220 of aforementioned display device lid 200.Therefore, the light exported by above-mentioned light emitting diode 311 can be via
The external irradiation of aforementioned display device lid 200 and display window 11 to refrigerator doors 10.
Fig. 5 is the touch sensor assemblies for indicating one embodiment of the invention, display cover, display assembly, display frame
The exploded perspective view of the integrated structure of frame and display, Fig. 6 be along Fig. 3 6-6 ' incisions longitudinal sectional view, Fig. 7 be along
The transverse sectional view of the 7-7 ' incisions of Fig. 3, Fig. 8 are to show that the connection of sensor pcb and printed circuit boards of monitor is closed
The block diagram of system.
With reference to Fig. 5 to Fig. 8, the forward face and upper side of said frame 100 are formed in a manner of being open.Therefore, when above-mentioned
When frame 100 is attached to the back side of above-mentioned front panel 20, opening portion 110 is formed in the upper side of said frame 100.On moreover,
The front end for stating frame 100 is bent to the direction parallel with above-mentioned front panel 20, and frame binding part 120 is formed with this.In detail,
Said frame binding part 120 is the part at the back side for being bonded in above-mentioned front panel 20, to have to the lateral direction of said frame 100
There is the mode of Rack to be bent.Since the upper end of said frame 100 is open, said frame binding part 120 can be in connect
Connect the "U" shaped state on the right side in the left side of the front face of said frame 100, the downside of front face and front face.
The bonding component 25 formed by double faced adhesive tape or by binder is set in said frame binding part 120, so as to make
Said frame 100 is attached to the rear of above-mentioned front panel 20.
In the state that said frame 100 is attached to above-mentioned front panel 20, the upper side of said frame 100 and above-mentioned decoration
The lower surface of component 40 is in contact.That is, above-mentioned decorative element 40 is positioned over the upper side of said frame 100, said frame 100
Opening portion 110 is connected with the above-mentioned insert port 41 formed in above-mentioned decorative element 40.
Therefore, even if being used to form the expanding foam solution expanding foam solution of above-mentioned heat-insulating material 24 to the injection of the inside of above-mentioned door 10
It is not flowed into the inner space of said frame 100.Moreover, multiple reinforcements of the rear formation clathrate in said frame 100
Muscle 130.Therefore, even if filling the expanding foam solution for making 24 molding high pressure of above-mentioned heat-insulating material to the inside of above-mentioned door 10
Because above-mentioned reinforcing rib 130 is without occurring the shape distortion of said frame 100 or being damaged, and it can steadily maintain said frame
The space of 100 inside.
Moreover, support plate 141 can be installed in the upper-side area of the front face of said frame 100.For this purpose, can be in said frame
Front face left side edge and right side edge form plate support portion 140.Above-mentioned plate support portion 140 can make said frame binding part
A part for 120 inside edge forms difference of height identical with the thickness of above-mentioned support plate 141.
In the state that aforementioned display device lid 200 is contained in the inside of said frame 100, above-mentioned support plate 141 masking with
The front face of the corresponding said frame in the upside of aforementioned display device lid 200 100.Moreover, if above-mentioned support plate 141 is installed on
Plate support portion 140 is stated, then the forward face of above-mentioned support plate 141, the forward face of aforementioned display device lid 200 and said frame binding part
120 form same plane.Therefore, when said frame 100 is attached to the rear of above-mentioned front panel 20, due to above-mentioned support plate
141 and aforementioned display device lid 200 front face there are difference in height, it is therefore possible to prevent said frame 100 is shaken or said frame
100 the phenomenon that not being attached to above-mentioned front panel 20 firmly.Moreover, it can also prevent from forming the above-mentioned front panel of difference in height
20 part deforms because of external impact.
Above-mentioned plate support portion 140 can support the left end and right-hand end of above-mentioned support plate 141.Moreover, in above-mentioned frame
Frame 100 is attached in the state of above-mentioned front panel 20, and above-mentioned support plate 141 can be slidably inserted into above-mentioned 140 He of plate support portion
It is formed by space between the back side of above-mentioned front panel 20.Certainly, also above-mentioned plate support portion can be fixed in above-mentioned support plate 141
In the state of 140, above-mentioned support plate 141 is attached to the back side of above-mentioned front panel 20 with said frame 100 together.
Electric wire entrance 150 can be formed in the side surface upper part of said frame 100.The formation of said wires entrance 150 is used for
The channel for making electric wire come in and go out, said wires are used to be connected at the electronic unit and said machine casing of the inside of said frame 100
Power supply unit.Said wires entrance 150 is formed close to the side surface upper part of the said frame 100 of the hinge of above-mentioned door 10, from
And the distance between said wires entrance 150 and the hinge hole of above-mentioned door 10 can be made to minimize.Moreover, above-mentioned electricity can be passed through
Line entrance 150 configures electric wire, and before injecting expanding foam solution to the inside of above-mentioned door 10, carries out masking said wires and come in and go out
The ending processing of mouth 150, to prevent expanding foam solution from being flowed into the inside of said frame 100.
Moreover, limiting groove 160 can be respectively formed in the left lateral sides of said frame 100 and right side side.In above-mentioned display
The width direction limiting unit 230 outstanding of two sides to above-mentioned display covers 200 of device lid 200 is inserted in above-mentioned limiting groove
160.Above-mentioned limiting groove 160 is with shaped depressions corresponding with the shape of above-mentioned limiting unit 230, also, in aforementioned display device lid
200 are contained in the state of 100 inside of said frame, aforementioned display device lid 200 can be made not shake, and maintain accurate location.
In the inner side of said frame 100, shape can be protruded in side corresponding with the downside of above-mentioned limiting groove 160
At the lid support portion 170 for being used to support aforementioned display device lid 200.Said frame corresponding with the downside of above-mentioned limiting groove 160
100 inner space is the part for accommodating aforementioned display device lid 200.Above-mentioned lid support portion 170 is from a left side for said frame 100
Right both sides are prominent to the center position of said frame 100, to which above-mentioned lid support portion 170 is to press aforementioned display device lid 200
The mode of the both side ends at the back side supports aforementioned display device lid 200.
Therefore, in the state that aforementioned display device lid 200 is attached to the rear of above-mentioned front panel 20, if said frame
100 are attached to above-mentioned front panel 20, and inject expanding foam solution to the inside of above-mentioned door 10, then above-mentioned lid support portion 170 pushes away forwards
Dynamic aforementioned display device lid 200 maintains aforementioned display device lid 200 to be attached to the state of above-mentioned front panel 20 with this.
In particular, being used in the above-mentioned cohesive component that aforementioned display device lid 200 is attached to the back side of above-mentioned front panel 20
25 harden and loss of function, can also remain above-mentioned aobvious by the power that above-mentioned lid support portion 170 pressurizes to aforementioned display device lid 200
Show that device lid 200 is close to the state at the back side of above-mentioned front panel 20.
Multiple above-mentioned lid support portions 170 separate specified interval vertically to configure, to multiple above-mentioned lid support portions
170 can equably press the entire back side of aforementioned display device lid 200 and support.Moreover, can also with aforementioned display device lid 200
The forward face of the tactile each above-mentioned lid support portion 170 of back face forms one or more protruding portions 171.Above-mentioned protruding portion 171
In the overshooting shape of the tendon shape or hemispherical state that are formed in a manner of long to transverse direction, to be carried out with aforementioned display device lid 200
Line contact or point contact.Therefore, even if the contact surface of aforementioned display device lid 200 and above-mentioned lid support portion 170 can be prevented if uneven
Only aforementioned display device lid 200 tilts.It is pressed moreover, each above-mentioned lid support portion 170 can be transmitted equably to above-mentioned display cover 200
Power.
For example, in aforementioned display device lid 200, slightly inclined state is tightly attached to the back side of above-mentioned front panel 20 forward and backward
In the state of, it can come to pressurize to said frame 100 by expanding foam solution.In the case, be used for pair with above-mentioned front panel 20 apart
The protruding portion 171 of the lateral pressurization of aforementioned display device lid 200 farther out and makes above-mentioned aobvious by the pressure wear of above-mentioned expanding foam solution
Show 200 permutation of device lid in correct position.
Aforementioned display device lid 200 can be formed by the raw materials for plastics production of plate, and aforementioned display device lid 200 is on being attached to
State the inside that said frame 100 is contained in the state of front panel 20.
On the other hand, the receiving portion for installing above-mentioned touch sensor assemblies 500 is formed in aforementioned display device lid 200
210.Moreover, after assembling, can be formed in the position on aforementioned display device lid corresponding with above-mentioned display window 11 200 above-mentioned more
A second openings 220.
Aforementioned display device component 300 may include:Printed circuit boards of monitor 310, for installing above-mentioned light emitting diode
313;And reflector 320, it is configured at the forward face of aforementioned display device printed circuit board 310.
Aforementioned display device printed circuit board 310 may include:Light emitting diode control unit, for driving above-mentioned light emitting diode
313;And sensor controller 330, for driving above-mentioned touch sensor assemblies 500.Therefore, the sensor control unit
330 handle the above-mentioned front panel 20 detected by above-mentioned touch sensor assemblies 500 on aforementioned display device printed circuit board 310
Touch signal.For this purpose, as shown in figure 8, constituting the sensor pcb 700 of above-mentioned touch sensor assemblies 500 and upper
Stating printed circuit boards of monitor 310 can be connected by cable connector 600.
Above-mentioned cable connector 600 may include:First cable connector 610, with 700 phase of the sensor printed circuit board
Connection;And second cable connector 620, it is connected with aforementioned display device printed circuit board 310.It can connect in above-mentioned first cable
The end of the end and the second cable connector 620 that connect device 610 is respectively formed portion of terminal, to which above-mentioned first cable can be made to connect
It connects device 610 and the second cable connector 620 is electrically connected to each other.
Moreover, during aforementioned display device component 300 is installed on above-mentioned door 10, above-mentioned first cable connector 610
It can be extended with the length being connected with each other in the outside of above-mentioned door 10 with the second cable connector 620.For this purpose, in aforementioned display device
Lid 200 is attached in the state of the back side of above-mentioned front panel 20, and the length of at least the above first cable connector 610 is more than from upper
Distance until stating the upper end to above-mentioned insert port 41 of touch sensor assemblies 500.It therefore, can be in above-mentioned touch sensor assemblies
500 are installed in the state of aforementioned display device lid 200, make above-mentioned cable connector 610,620 in the outside of above-mentioned insert port 41
After electrical connection, it is inserted into the inside of above-mentioned insert port 41 and above-mentioned display assembly 300 is installed.
On the other hand, the display terminal 311 being connected with above-mentioned second cable connector 620 is configured in above-mentioned display
On the left of the upper end of device printed circuit board 310 (as shown in Figure 5).This is in order to which above-mentioned display terminal 311 to be configured at as far as possible
Position from above-mentioned touch sensor assemblies 500, to be occurred when user of service touches above-mentioned front panel 20 with finger
The possibility that electrostatic is transmitted to above-mentioned printed circuit boards of monitor 310 minimizes.That is, in order to by above-mentioned electrostatic to aforementioned display device
Printed circuit board 310 transmits, to which make the electricity damage that the component for being installed on aforementioned display device printed circuit board 310 is subject to can
It can property minimum.
Moreover, be attached to the above-mentioned reflector 320 of the forward face of aforementioned display device printed circuit board 310 for guide from
The light for stating the output of light emitting diode 313 is concentrated to above-mentioned first openings 21.Above-mentioned reflector 320 is not only guided to shine from above-mentioned
The light that diode 313 radiates, moreover, also making aforementioned display device printed circuit board 310 and aforementioned display device terminal 311 before above-mentioned
The back side of panel 20 separates distance corresponding with the thickness of above-mentioned reflector 320, to which above-mentioned reflector 320 executes protection
Function of the aforementioned display device printed circuit board 310 from electrostatic influence.
In particular, since above-mentioned front panel 20 should be formed by stainless steel raw material, also, aforementioned display device component 300 should be with
The adjacent architectural characteristic of display window 11, therefore, aforementioned display device printed circuit board 310 are possible to above-mentioned to being touched in user of service
Generated electrostatic is fragile during touch operation portion 12.Therefore, above-mentioned reflector 320 is configured at aforementioned display device printing electricity
The forward face of road plate 310, as a result, in structure, aforementioned display device printed circuit board 310 is spaced with above-mentioned front panel 20, together
When can also transmit light well, so as to protect aforementioned display device printed circuit board 310 from electrostatic influence.
Third openings 321 are formed in above-mentioned reflector 320, above-mentioned third openings 321 are configured at above-mentioned reflector 320
Position corresponding with the allocation position of above-mentioned light emitting diode 313,321 and second openings 220 of above-mentioned third openings
And first openings 21 be connected.In the state that aforementioned display device component 300 is installed on aforementioned display device frame 400, if on
It states display frames 400 and is installed on aforementioned display device lid 200, then above-mentioned first openings 21, the second openings 220 and third are passed through
Port 321 will be with the structure be mutually close to forward and backward and be interconnected.Therefore, it is exported from above-mentioned light emitting diode 313
Light pass through above-mentioned first openings 21, the second openings 220 and third openings 321, and by above-mentioned display window 11 come to
The external irradiation of door 10.
On the other hand, can sound outputting device 340 be set at the back side of aforementioned display device printed circuit board 310.Above-mentioned sound
Working condition of the output device 340 for audibly indicating refrigerator 1 is rung, loud speaker, buzzer (buzzer) can be used.On
It states sound outputting device 340 and could be sandwiched in the display hole 412 for being formed in aforementioned display device frame 400.Therefore, defeated from above-mentioned sound equipment
Go out the sound of the output of device 340 to user of service's transmission positioned at the front of above-mentioned door 10, to make in user of service's identification
State the working condition or operating status of refrigerator 1.
On the other hand, as installing the aforementioned display device component including aforementioned display device printed circuit board 310
300, aforementioned display device frame 400 can be plate-like, can install above-mentioned printed circuit boards of monitor 310.Moreover, by along upper
The edge for stating display frames 400 extends, and to the front of above-mentioned display frames 400 edge 410 outstanding, above-mentioned aobvious
Show that the forward face of device frame 400 forms the space for accommodating aforementioned display device printed circuit board 310.Moreover, at above-mentioned edge
It, can be in the front end at the edge 410 of the left side edge and right side edge that are formed in aforementioned display device frame 400 in 410 front end
Portion forms slide insert part 415.Above-mentioned slide insert part 415 is in the direction orthogonal with above-mentioned edge 410, that is, is shown to above-mentioned
Show the muscle form of the width direction bending of device frame 400.
When aforementioned display device frame 400 is when aforementioned display device lid 200 is combined, above-mentioned slide insert part 415 is inserted in
In the inside for the guide rail 240 that aforementioned display device lid 200 is formed.Therefore, said frame display 400 can be slidably inserted by above-mentioned
Portion 415 is installed on aforementioned display device lid 200.
Also reinforcing rib 411 can be formed in the entire forward face of said frame display 400, above-mentioned reinforcing rib 411 is in cross
To and longitudinally spaced specified interval come the clathrate that extends.It is cut moreover, frame can be formed in the upper end of aforementioned display device frame 400
Open portion 414.Said frame cutting section 414 can be cut open in position corresponding with display terminal 311 is stated, and be prevented with this above-mentioned
Display terminal 311 and aforementioned display device frame 400 interfere with each other.
Moreover, can the forward face of aforementioned display device frame 400 formed boss 413, above-mentioned boss 413 be used for will be above-mentioned
The bolt 312 that printed circuit boards of monitor 310 is fixed on aforementioned display device frame 400 is fastened.Therefore, aforementioned display device is printed
Circuit board 310 can be corresponding with the projecting height of above-mentioned boss 413 to be separated from the forward face of aforementioned display device frame 400
The state of distance is fixed on aforementioned display device frame 400.
On the other hand, the frame handle extended upward is formed in the central portion of the upper end of said frame display 400
420.Said frame handle 420 is that the user of service when aforementioned display device lid 200 is combined of aforementioned display device frame 400 is made to hold
Firmly and the part that is operated.
Said frame handle 420 includes:First vertical component effect 421 extends from aforementioned display device frame 400;Rake 422,
Extended in a manner of tilted rearward from the upper end of an above-mentioned vertical component effect 421;And second vertical component effect 423, in above-mentioned rake
422 upper end extends upward again.
421 and second vertical component effect 423 of above-mentioned first vertical component effect is extended in a manner of being mutually parallel, and by above-mentioned rake
422 are connected.Moreover, forming the handle that user of service can hold to being laterally extended in the upper end of above-mentioned second vertical component effect 423
Portion 424.
Therefore, in order to be inserted into aforementioned display device frame 400 to above-mentioned display cover 200, user of service holds above-mentioned shank
424 and aforementioned display device frame 400 is inserted into the inside of above-mentioned insert port 41 since the lower end of said frame display 400.
Moreover, be more inserted into said frame display 400 to the lower section of above-mentioned insert port 41, then by the structure of said frame handle 420,
Aforementioned display device frame 400 easier can be tightly attached to the back side of aforementioned display device lid 200.
If in the state that aforementioned display device frame 400 is fully inserted into the inside of aforementioned display device lid 200, inserted above-mentioned
Entrance 41 installs above-mentioned insert port lid 42, then the bottom surface of above-mentioned insertion lid 42 is in contact with the upper side of above-mentioned shank 424.Though
It is so not shown, but form shape handle corresponding with above-mentioned shank 424 engaging portion in the bottom surface of above-mentioned insertion lid 42.Cause
This, if above-mentioned insertion lid 42 is installed on above-mentioned insert port 41, the upper end of said frame handle 420 and above-mentioned handle engaging portion
It is combined, so as to maintain fixed state.
Fig. 9 is the stereogram for the integrated structure for showing aforementioned display device lid 200 and display frames 400, and Figure 10 is above-mentioned
The exploded perspective view of display cover 200 and the integrated structure of touch sensor assemblies 500, Figure 11 are to be equipped with observe from the rear
State the stereogram of the aforementioned display device lid 200 of touch sensor assemblies 500.
With reference to Fig. 9 to Figure 11, guide rail 240 is formed in the left and right side of aforementioned display device lid 200.Aforementioned display device lid 200
Two side ends above-mentioned guide rail 240 is formed by being repeatedly bent, above-mentioned slide insert part 415 is inserted in along above-mentioned guide rail 240
The inside of aforementioned display device lid 200.
Wherein, as shown in fig. 6, the front-rear direction width of the upper end by making above-mentioned guide rail 240 is more than above-mentioned guide rail 240
Following side front-rear direction width, can be easy to be inserted into above-mentioned slide insert part 415 as a result,.
Also, more to the downside of above-mentioned guide rail 240, the rear of above-mentioned guide rail 240 is more to close to aforementioned display device lid 200
Forward face direction tilt.Therefore, aforementioned display device frame 400 is more inserted in aforementioned display device lid 200, then is installed on above-mentioned
The aforementioned display device component 300 of the forward face of display frames 400 is more tightly attached to 200 side of aforementioned display device lid.Therefore, above-mentioned
Display frames 400 are fully inserted into the state of aforementioned display device lid 200, and above-mentioned slide insert part 415 is fixed on above-mentioned lead
The inside of rail 240, above-mentioned reflector 320 are tightly attached to the rear of aforementioned display device lid 200 completely.At this point, above-mentioned third is made to pass through
Port 321 and the second through hole 220 permutation forward and backward.
On the other hand, the forward face of aforementioned display device lid 2000 is attached to the rear of above-mentioned front panel 20, above-mentioned aobvious
Show that the side of the forward face of device lid 200 forms the receiving portion 210 for accommodating above-mentioned touch sensor assemblies 500.Above-mentioned receiving
Portion 210 is with configured openings corresponding with the shape of above-mentioned touch sensor assemblies 500, to make above-mentioned touch sensor assemblies
500 are inserted in above-mentioned receiving portion 210.Moreover, being installed on the state of above-mentioned receiving portion 210 in above-mentioned touch sensor assemblies 500
Under, the forward face of above-mentioned touch sensor assemblies 500 forms same plane with the forward face of aforementioned display device lid 200.
It can be formed to the rear of above-mentioned display cover 200 and be prolonged in four corners of the opening portion for forming above-mentioned receiving portion 210
The shell support portion 211 stretched.Above-mentioned shell support portion 211 is bent and is prolonged with " L " shape in four corners of above-mentioned receiving portion 210
It stretches.Above-mentioned shell support portion 211 coats the side corner of above-mentioned touch sensor assemblies 500 and supports.Moreover, above-mentioned shell branch
The end of support part 211 can be tightly attached to the rear of above-mentioned touch sensor assemblies 500 by being bent again.That is, by above-mentioned
Shell support portion 211 supports the side surface part of the corner of above-mentioned touch sensor assemblies 500 and the rear face of corner.Therefore, i.e.,
Make by using personnel touch above-mentioned front panel 20 to the forward face of above-mentioned touch sensor assemblies 500 apply pressure, it is above-mentioned
Touch sensor assemblies 500 are not also elapsed rearward, and the state for also maintaining initial stage to assemble.
On the other hand, the upper side edge of above-mentioned receiving portion 210 can be stuck in the formation of the top and bottom of sensor outer housing 500a
The shell engaging portion 511 of edge and lower edge, the sensor shell 500a form the outer of above-mentioned touch sensor assemblies 500
Shape.Moreover, being formed by least one of above-mentioned shell engaging portion 511 in the top and bottom of the sensor shell 500a
In shape identical with hook, to which above-mentioned touch sensor assemblies 500 can maintain the shape for being fixed on 210 inside of above-mentioned receiving portion
State.That is, above-mentioned touch sensor assemblies 500 are inserted in the inside of above-mentioned receiving portion 210 in the front of aforementioned display device lid 200,
Above-mentioned shell engaging portion 511 is stuck in the edge of above-mentioned receiving portion 210, with this, can make above-mentioned touch sensor assemblies 500 with it is above-mentioned
200 secure bond of display cover.
On the other hand, when aforementioned display device lid 220 is attached to the rear of above-mentioned front panel, make in aforementioned display device lid
Above-mentioned second openings 220 that 200 forward face is formed and above-mentioned first openings 21 permutation forward and backward.Above-mentioned second passes through
Port 220 can also be with configured openings corresponding with above-mentioned 7 sections (or 88 sections), moreover, in order to show other information, can be with
Above-mentioned second openings 220 are formed with multiple simple pore morphologies.
Blocking part 221 can be formed at the edge of above-mentioned second openings 220.Above-mentioned blocking part 221 can be passed through above-mentioned second
The edge of port 220 is prominent to the front of above-mentioned display cover 200.
Moreover, the above-mentioned cohesive component 25 between the forward face of aforementioned display device lid 200 only applies or is attached to above-mentioned resistance
Lateral area every portion 221.It therefore, can be by above-mentioned when aforementioned display device lid 200 is attached to the back side of above-mentioned front panel 20
The applied thickness of component 25 is bonded to make to be formed by gap between above-mentioned first openings 21 and above-mentioned second openings 220
Size minimize, also, the phenomenon that can passing light through above-mentioned gap light leakage, minimizes.The projecting height of above-mentioned blocking part 221
Can effectively to separate the height of light leakage phenomena.In detail, it is contemplated that the above-mentioned of the forward face coated on aforementioned display device lid 200 is glued
Knot part 25 is by the compressed situation of pressure for the above-mentioned expanding foam solution filled to the inside of above-mentioned door 10, above-mentioned blocking part 221
Height less than above-mentioned cohesive component 25 by the height before compressing.
Figure 12 is along the incision stereogram of the 12-12 ' incisions of Fig. 2, and Figure 13 is the enlarged cross-sectional view of the part A of Figure 12.
2 and Figure 13 referring to Fig.1 is attached to above-mentioned front panel 20 in aforementioned display device lid 200 by above-mentioned cohesive component 25
Rear in the state of, the second openings 220 of above-mentioned first openings 21 are interconnected.At this point, above-mentioned first openings
21 size may be significantly less than the size of above-mentioned second openings 220, and multiple above-mentioned first openings 21 are configured in one
The inside region of second openings 220.
Moreover, being fully inserted into the inside of aforementioned display device lid 200, and above-mentioned display in aforementioned display device frame 400
Device assembly 300 is located in the state of the inside of aforementioned display device lid 200, makes 321 and second openings 220 of above-mentioned third openings
Permutation forward and backward.Above-mentioned second openings 220 are identical with the size and shape of third openings 321, above-mentioned reflector 320
It is tightly attached to the rear of aforementioned display device lid 200, above-mentioned third openings 321 can accurately permutation be passed through above-mentioned second as a result,
The dead astern of port 220.
Therefore, above-mentioned first openings 21, the second openings 220 and third openings 321 are connected to forward and backward, with
This, the light exported from above-mentioned light emitting diode 313 can pass through above-mentioned third openings 321, the second openings 220 and first successively
External irradiation of the openings 21 to door 10.
It on the other hand, can be attached at the back side of above-mentioned front panel corresponding with the region for forming above-mentioned first openings 21 20
Diffusion sheet 26.Above-mentioned diffusion sheet 26 can be spread by the light for making to irradiate from above-mentioned light emitting diode 313, to make by above-mentioned aobvious
Show that the light that window 11 irradiates equably illuminates 11 entirety of above-mentioned display window.Certainly, if above-mentioned diffusion sheet 26 is attached to and above-mentioned display
The back side of the corresponding above-mentioned front panel in the region of window 11 20, then above-mentioned diffusion sheet also additional execute cover above-mentioned first openings
21 whole functions.
Figure 14 is the exploded perspective view for the touch sensor assemblies for observing from the front one embodiment of the invention, and Figure 15 is from rear
Observe the exploded perspective view of above-mentioned touch sensor assemblies in side.
4 and Figure 15 referring to Fig.1, above-mentioned touch sensor assemblies 500 may include:Sensor outer housing 500a is configured at external
The rear of component forms the shape of above-mentioned touch sensor assemblies 500;Sensor pcb 700 is contained in above-mentioned biography
The inside of sensor shell 500a;Elastomeric element 720 is used to support the sensor printed circuit board 700;And touch boost motor
530, it is formed by opening portion 512 with the forward face in the sensor shell 500a and is combined.
In detail, the sensor shell 500a includes casing cover 510 and housing main body 520, also, above-mentioned casing cover
510 and above-mentioned housing main body 520 be combined, formed for the sky in internal receiving the sensor printed circuit board 700 with this
Between.Moreover, above-mentioned casing cover 510 can form forward face and the side of above-mentioned touch sensor assemblies 500, above-mentioned housing main body
520 can form the back side of above-mentioned touch sensor assemblies 500.Moreover, the side of above-mentioned housing main body 520 and above-mentioned casing cover
510 side overlapping.
Above-mentioned casing cover 510 forms forward face, left and right side and the upper and lower side of the sensor shell 500a, above-mentioned
The upper and lower side of casing cover 510 forms above-mentioned shell engaging portion 511.As described above, above-mentioned shell engaging portion 511 can make above-mentioned touch
Touch the receiving portion that sensor module 500 is fixedly installed in aforementioned display device lid 200.Moreover, in above-mentioned touch sensor assemblies 500
It is installed in the state of above-mentioned receiving portion 210, the forward face of above-mentioned casing cover 510 can be to the external dew of above-mentioned display cover 200
Go out, to which above-mentioned casing cover 510 is attached to the back side of above-mentioned front panel 20 by above-mentioned cohesive component 25.
Above-mentioned opening portion 512 is formed in the forward face of above-mentioned casing cover 510, is installed in above-mentioned opening portion 512 and touches boosting
Device 530.Above-mentioned touch boost motor 530 is used to transmit when user of service presses and touches above-mentioned to sensor 750 described below
The displacement (deflection) of the above-mentioned front panel 20 occurred when front panel 20, hereinafter, the detailed construction of above-mentioned touch boost motor 530
With reference to the accompanying drawings to being described in detail.
Above-mentioned opening portion 512 has size corresponding with the size and shape of above-mentioned touch boost motor 530 and shape, because
This, above-mentioned opening portion 512 is covered by above-mentioned touch boost motor 530.It is formed to above-mentioned casing cover at the edge of above-mentioned opening portion 512
The extension muscle 517 that 510 rear extends, with this, the side of above-mentioned touch boost motor 530 is tightly attached in above-mentioned opening portion 512.It is above-mentioned
The side of the inner peripheral surface and above-mentioned touch boost motor 530 that extend muscle 517 is close to, with this, when above-mentioned touch boost motor 530 is by base
When the plus-pressure of touch moves forward and backward, prevent above-mentioned touch boost motor 530 from tilting or shaking in the lateral direction.
Moreover, boost motor support portion can be respectively formed in the left side inner peripheral surface and right side inner peripheral surface of above-mentioned opening portion 512
513.In detail, above-mentioned boost motor support portion 513 is prominent from above-mentioned extension muscle 517 to the center position of above-mentioned opening portion 512, and
Extend along the inner peripheral surface of above-mentioned extension muscle 517.
In more detail, above-mentioned boost motor support portion 513 can rearward separate regulation from the front end of above-mentioned extension muscle 517
The position at interval extends the width of prescribed level to the rear of above-mentioned casing cover 510.In fact, the front end of above-mentioned extension muscle 517
The thickness for being slightly smaller than above-mentioned touch boost motor 530 separated by a distance between portion and the front end of above-mentioned boost motor support portion 513.
In the state that above-mentioned touch boost motor 530 is mounted, above-mentioned boost motor support portion 513 supports above-mentioned touch boosting
The left side edge and right side edge at the back side of device 530.Therefore, it is touched even if applying to the forward face of above-mentioned touch boost motor 530
Pressure is also prevented from the degree that above-mentioned touch boost motor 530 itself rearward moves setting position or more.
Multiple hook grooves 514 are formed in above-mentioned boost motor support portion 513, above-mentioned hook groove 514 is above-mentioned to be formed in for receiving
Touch the part of the hook of boost motor 530.Above-mentioned boost motor support portion 513 is divided into multiple supports according to above-mentioned multiple hook grooves 514
Portion's block.When above-mentioned touch boost motor 530 is installed on above-mentioned opening portion 512, hook is formed by above-mentioned touch boost motor 530
531 pass through above-mentioned hook groove 514.
If above-mentioned touch boost motor 530 is installed on above-mentioned casing cover 510, the end of above-mentioned hook 531 can be stuck in above-mentioned prolong
Stretch the end of muscle 517.In this case, above-mentioned if above-mentioned touch boost motor 530 moves forward and backward by touch pressure
The end of hook portion 531 can carry out after first being detached from the rear end of above-mentioned extension muscle 517, be tightly attached to the dynamic of above-mentioned extension muscle 517 again
Make.Wherein, the front-rear direction displacement distance of above-mentioned touch boost motor 530 is minimum.
Moreover, when above-mentioned touch boost motor 530 moves forward and backward, above-mentioned hook groove 514 prevents above-mentioned touch boosting
Device 530 vertically tilts.That is, in above-mentioned touch boost motor 530 in the state that above-mentioned casing cover 510 is combined, it is above-mentioned
Fine distance can only be moved forward and backward by touch pressure by touching boost motor 530.
Meanwhile it as described above, can be above-mentioned to touch in the state that above-mentioned touch boost motor 530 is assembled in above-mentioned casing cover 510
The forward face for touching boost motor 530 protrudes more forwards than above-mentioned casing cover 510.Therefore, if above-mentioned touch sensor assemblies 500 and
Aforementioned display device lid 200 is attached to the back side of above-mentioned front panel 20, then above-mentioned touch boost motor 530 can maintain firmly to be tightly attached to
The state of the rear of above-mentioned front panel 20 (with reference to the sectional view of Figure 24).Therefore, apply to the forward face of above-mentioned front panel 20
Fine touch pressure can also be transmitted to above-mentioned touch boost motor 530.
On the other hand, lid engaging portion 516 can be formed in the side of above-mentioned casing cover 510.Above-mentioned lid engaging portion 516 be for
The part for making the ontology engaging portion 521 for being formed in housing main body 520 be inserted into, hook-shaped above-mentioned ontology engaging portion 521 can be in the form of slot
Or it is poroid, come so that the mode that hook-shaped above-mentioned ontology engaging portion 521 is engaging in above-mentioned lid engaging portion 516 makes above-mentioned shell master
Body 520 is combined with above-mentioned casing cover 510.
Wherein it is preferred to when ontology engaging portion 521 is anchored on above-mentioned lid engaging portion 516, above-mentioned 516 shape of lid engaging portion
Cheng Yuke equably compresses the position for the multiple elastomeric elements 720 for being set to the sensor printed circuit board 700.
I.e., it is preferable that if above-mentioned casing cover 510 and housing main body 520 are combined, above-mentioned elastomeric element 720 is by equal
Even pressure is uniformly compressed, so as to equably push the sensor printed circuit board 700 forwards and touch boosting
Device 530.For this purpose, above-mentioned lid engaging portion 516 and above-mentioned ontology engaging portion 521 can be located in the sensor 750 (referring to Fig.1 6)
Top and bottom be formed by between elastomeric element 720.With this, above-mentioned elastomeric element 720 can be equably compressed.
Therefore, above-mentioned touch boost motor 530 can be more slightly prominent forwards from the forward face of above-mentioned casing cover 510 always,
It maintains to be tightly attached to the state of above-mentioned front panel 20, when user of service touches the forward face of above-mentioned front panel 20, can effectively examine
Survey touch pressure.The structure and function of the sensor printed circuit board 700 and elastomeric element 720 are carried out with reference to the following drawings
More detailed explanation.
On the other hand, wire hole 515 can be formed in the upper side of above-mentioned casing cover 510.Said wires hole 515 is in opening,
Above-mentioned first cable connection being connected come the sensor terminal 711 for making with being installed on the sensor printed circuit board 700
Device 610 comes in and goes out.Said wires hole 515 can be formed in at least side in above-mentioned casing cover 510 and housing main body 520.
Above-mentioned housing main body 520 is combined with above-mentioned casing cover 510, after forming above-mentioned touch sensor assemblies 500
Half portion shape can install the space of above-mentioned sensor pcb 700 in the formation of the inside of above-mentioned housing main body 520.On
Stating housing main body 520 can be formed by back part and side surface part, and above-mentioned side surface part is prolonged forwards from four edges of above-mentioned back part
It stretches.
Moreover, multiple ontology engaging portions 521 can be formed in the side of above-mentioned housing main body 520.Above-mentioned ontology engaging portion 521
It can be cut open by a part for the side surface part of above-mentioned housing main body 520, also, above-mentioned ontology engaging portion 521 is inserted into
Above-mentioned lid engaging portion 516, to make above-mentioned casing cover 510 and housing main body 520 maintain the state be combineding with each other.
Multiple above-mentioned lid engaging portions 516 and multiple ontology engaging portions 521 can be to the length of above-mentioned touch sensor assemblies 500
Direction by separate it is equidistant in a manner of configure.Moreover, the lid engaging portion 516 in left side and the lid engaging portion 516 on right side are formed in phase
With in height, and above-mentioned multiple ontology engaging portions 521 are also so.Therefore, when 520 phase knot of above-mentioned casing cover 510 and housing main body
When conjunction, identical power can be applied to above-mentioned elastomeric element 720, it as a result, can be in the process for assembling above-mentioned touch sensor assemblies 500
In prevent above-mentioned elastomeric element 720 to side tilt.
On the other hand, wire hole 522 can be formed in the upper side of above-mentioned housing main body 520.It said wires hole 522 can shape
The 515 identical position of wire hole of the above-mentioned casing covers of Cheng Yuyu 510 so that above-mentioned first cable connector 610 can come in and go out above-mentioned
Wire hole 522.Certainly, it is not excluded that only form one in said wires hole 515,522.
Installation guide 523 can be formed in the back part (or bottom surface) of above-mentioned housing main body 520.Wherein, it is being vertically arranged
In the state of above-mentioned housing main body 520, the face for being equipped with above-mentioned installation guide 523 can be the back side of above-mentioned housing main body 520
Portion, in the state of horizontally disposed above-mentioned housing main body 520, the face for being equipped with above-mentioned installation guide 523 can be above-mentioned shell
The bottom surface of main body 520.
Above-mentioned installation guide 523 is used to guide the installation of multiple above-mentioned elastomeric elements 720, above-mentioned installation guide 523
Form the space for accommodating the above-mentioned elastomeric element 720 for being attached to the sensor printed circuit board 700.
In detail, installation guide 523 can be in shape corresponding with the sensor printed circuit board 700.That is, above-mentioned
The transverse width of sensor pcb 700 can be more than the laterally wide of the inner space formed by above-mentioned installation guide 523
Degree.Moreover, the transverse width of the inner space formed by above-mentioned installation guide 523 can be with the transverse direction of above-mentioned elastomeric element 720
Transverse width of same size or less times greater than above-mentioned elastomeric element 720.Therefore, above-mentioned elastomeric element 720 can be located at above-mentioned
The left and right sides of the inside region of installation guide 523, above-mentioned installation guide 523 can support above-mentioned elastomeric element 720
Left and right sides.As a result, when compressing above-mentioned elastomeric element 720, can pass through when by the touch pressure based on user of service
Prevent above-mentioned elastomeric element 720 from steadily supporting the sensor printed circuit board 700 to the warpage in a direction or inclination.
Moreover, can be corresponding in the position of the sensor terminal 711 set on the sensor printed circuit board 700
The back part of above-mentioned housing main body 520 forms terminal hole 524.Above-mentioned terminal hole 524 can have and 711 phase of the sensor terminal
Corresponding size, that is, the size of above-mentioned terminal hole 524 is identical as the size of the sensor terminal 711 or less times greater than upper
The size of sensor terminal 711 is stated, to make the sensor terminal 711 by above-mentioned terminal hole 524 to above-mentioned housing main body
Expose at 520 rear.Therefore, when the sensor printed circuit board 700 shakes forward and backward, the sensor terminal
711 do not generate interference with the back part of above-mentioned housing main body 520.
Also, above-mentioned first cable connector 610 is combined with the side of the sensor terminal 711.Therefore, if it is above-mentioned
The transverse width of terminal hole 524 is slightly larger than the transverse width of the sensor terminal 711, then can pass through above-mentioned terminal hole 524
To confirm the bonding state of above-mentioned first cable connector 610 and the sensor terminal 711.
On the other hand, the sensor printed circuit board 700 includes partition 730, sensor 750 and conductive foil 740, above-mentioned
Sensor pcb 700 is supported in the inside of the sensor shell 500a by above-mentioned elastomeric element 720.Moreover, upper
The dead astern of front panel 20 is stated, above-mentioned touch boost motor 530 is installed on above-mentioned opening portion in a manner of it can shake forward and backward
512.Moreover, be formed in above-mentioned conductive foil 740 contact site 745 and touch boost motor 530 maintain contact condition always, with this,
Can state directly up sensor 750 transmission occurred when user of service touches the touch operation portion 12 of above-mentioned front panel 20 it is upper
State the front-rear direction displacement of front panel 20.The above-mentioned touch boost motor 530 being in contact with above-mentioned contact site 745 with reference to Figure 22 Duis
Structure is described in more details.
Figure 16 is the longitudinal sectional view of above-mentioned touch sensor assemblies, and Figure 17 is the biography for constituting above-mentioned touch sensor assemblies
The vertical view (a) and rearview (b) of sensor printed circuit board, Figure 18 is the vertical view for the partition for constituting above-mentioned touch sensor assemblies
Figure, Figure 19 are the vertical view for the conductive foil for constituting above-mentioned touch sensor assemblies, and Figure 20 is the 20-20 ' incisions along Figure 19
Longitudinal sectional view.
Referring to Fig.1 6 to Figure 20, the sensor printed circuit board 700 can be formed by raw materials for plastics production.
In detail, it is printed in the forward face of the sensor printed circuit board 700 (upper side in figure) and constitutes circuit
Copper film 712.Moreover, the forward face in the sensor printed circuit board 700 forms sensor 750, the sensor 750 is used
In the displacement for the above-mentioned front panel 20 that detection occurs by the touch of user of service.
The sensor 750 can be piezoelectric transducer, and in more detail, the sensor 750 may include 751 He of metallic plate
It is attached to the ceramic component 752 of the forward face (upper side in figure) of above-mentioned metallic plate 751.Above-mentioned metallic plate 751 is by when making
Flexible deformation occurs for the touch pressure that is occurred when touching the forward face of above-mentioned front panel 20 with personnel.Moreover, above-mentioned ceramics
Device 752 generates electric power according to above-mentioned touch pressure.Above-mentioned piezoelectric transducer is well-known press detection sensor,
Therefore the more detailed explanation to the principle of above-mentioned piezoelectric transducer will be omitted.
Moreover, in an embodiment of the present invention, although being said so that the shape of the sensor 750 is rounded as an example
It is bright, but the shape of the sensor 750 is not limited to circle, it can be in a variety of shapes.
On the other hand, the sensor 750 can be formed multiple along the sensor printed circuit board 700, can installed
The forward face of the sensor printed circuit board 700 of the sensor 750 forms sensor support portion 713.
The sensor support portion 713 can be that size (or diameter) is less than the size of the sensor 750 (if sensor
750 for circle, then mean the diameter of sensor 750) slot or hole.Therefore, the metallic plate 751 of the sensor 750 is constituted
The back side (or bottom surfaces) edge by the sensor support portion 713 forward face (or upper side) edge supports.Wherein,
Boss (boss) form that the sensor support portion 713 can also form internal sky protrudes, and the sensor 750 is made to be positioned over
The structure rather than slot of the upper side of above-mentioned boss or the shape in hole.
Moreover, in the case that the sensor support portion 713 and the sensor 750 are rounded, the sensor branch
The diameter of support part 713 is smaller than the diameter of above-mentioned metallic plate 751, and the diameter of the sensor support portion 713 can be more than it is above-mentioned
The diameter of ceramic component 752.Therefore, above-mentioned metallic plate 751 is sent out at once by the touch pressure applied to above-mentioned front panel 20
Change shape, and above-mentioned ceramic component 752 can effectively detect the variation of the pressure applied to the sensor 750.
On the other hand, the sun by above-mentioned multiple sensors 750 is formed in the side of the sensor printed circuit board 700
The common contact point 714 that pole (positive electrodes) is connected with foregoing circuit.Above-mentioned common contact point 714 with
The back side of multiple the sensors 750 is electrically connected.If moreover, above-mentioned conductive foil 740 to be bonded in the front of above-mentioned copper film 712
Face, then above-mentioned common contact point 714 be formed by center conductor line 741a in above-mentioned conductive foil 740 and be in contact, it is above-mentioned to make
Common contact point 714 is electrically connected with the cathode (negative electrodes) of multiple the sensors 750.To make electric current
It is flowed in the sensor 750.
It can be formed at the back side of the sensor printed circuit board 700 for showing the accurate of above-mentioned elastomeric element 720
The installation display unit 715 of installation site.Above-mentioned installation display unit 715 can be formed by printing or processing, and can show installation
The position of above-mentioned elastomeric element 720.That is, only above-mentioned elastomeric element 720 is installed on above-mentioned installation display unit 715, just can be referred to as
Above-mentioned elastomeric element is installed on accurate position.
At this point, the installation site of above-mentioned elastomeric element 720, that is, the position of above-mentioned installation display unit 715 can be formed in above-mentioned
The outside of sensor 750, and the position that installation display unit 715 can be made opposite can be formed in.Moreover, opposite installation display unit
715 can be formed in from the center of the sensor support portion 713 at a distance of the position of same distance.
It is further preferred that the outboard end that the position of above-mentioned installation display unit 715 is located at the sensor 750 is more outer
Position.In detail, the L separated by a distance come between opposite installation display unit 715 centered on the sensor 750 can be more than
The outer diameter of the sensor 750 specifically can be more than the outer diameter of above-mentioned metallic plate 751.Therefore, above-mentioned elastomeric element 720 can be made
No normal direction transmits the direction of touch pressure and the sensor 750 generates interference, thus prevents the detection of the sensor 750
Ability declines.
Moreover, can make to combine via the face at the center of multiple the sensors 750 and by above-mentioned ontology engaging portion 521 and lid
The face that portion 516 is halved is identical face.It in other words, in fig. 14, can be by the water at the center via above-mentioned contact site 745
Plane vertically halves above-mentioned ontology engaging portion 521 and above-mentioned lid engaging portion 516.Thus can be to positioned at above-mentioned
The whole uniform pressure of offer of the sensor printed circuit board 700 inside sensor outer housing 500a, also, multiple biographies can be made
Sensor 750 detects the operation signal of user of service under the same conditions.
On the other hand, partition 730 can be between the copper film 712 of (interposed) the sensor printed circuit board 700
Between above-mentioned conductive foil 740.Above-mentioned partition 730 is for making above-mentioned conductive foil 740 be bonded in the sensor printed circuit
The component of plate 700, above-mentioned partition 730 can be the caking property component of double faced adhesive tape etc..Moreover, can be formed in above-mentioned partition 730 more
A hole.
In detail, when above-mentioned partition is attached to the sensor printed circuit board 700, it is formed in above-mentioned partition 730
Hole may include:Multiple gauge holes 731 are formed in position corresponding with the sensor 750;And contact spot hole 734, shape
The 714 corresponding position of common contact point of the above-mentioned copper films of Cheng Yuyu 712.If above-mentioned conductive foil 740 adheres to by above-mentioned hole
In the forward face (or upper side) of above-mentioned partition 730, then above-mentioned conductive foil 740 can with the sensor 750 and above-mentioned common connect
Contact 714 is in contact.
Wherein, the size in the sensor hole 731 is more than the size of the sensor 750, so as to make the sensor
750 are contained in the inside in the sensor hole 731.Therefore, when the sensor 750 deforms by touch pressure, on
It states sensor 750 and does not generate interference with above-mentioned partition 730.
Moreover, the venthole 732 cut with defined length can be formed at the edge of each gauge hole 731.When above-mentioned
When partition 730 is attached on above-mentioned copper film 712, above-mentioned venthole 732 plays is present in above-mentioned partition to outside discharge rapidly
The function of access between 730 and copper film 712.In detail, above-mentioned venthole 732 can be along the length side of above-mentioned partition 730
It forms to specific length is extended, and extends from the edge in the sensor hole 731 to a direction.This is because above-mentioned partition 730
It is above-mentioned making above-mentioned partition 730 be attached in film form, and when making above-mentioned partition 730 be attached on above-mentioned copper film 712
After one side end of copper film 712, above-mentioned partition 730 is made to adhere to successively towards the end side of above-mentioned copper film 712.Cause
This, above-mentioned venthole 732 can be from the edge in the sensor hole 731 to the identical direction in attachment direction with above-mentioned partition 730
Extend specific length.
Moreover, when above-mentioned partition 730 and above-mentioned conductive foil 740 are attached on above-mentioned copper film 712, it can be in above-mentioned partition
730 and conductive foil 740 be arranged guide portion, to make above-mentioned partition and conductive foil 740 that can be attached to the accurate location set.
In detail, guide sections may include being formed in the through hole 733 of above-mentioned partition 730 and above-mentioned conductive foil 740,
744.Moreover, above-mentioned through hole 733,744 can form multiple to the length direction of above-mentioned partition 730 and conductive foil 740, and can hand over
For the one of the width direction of the one side edge and another lateral edges and conductive foil 740 for the width direction for being configured at above-mentioned partition 730
Lateral edges and another lateral edges.
Moreover, being configured with above-mentioned through hole 733,744 corresponding positions in the sensor printed circuit board 700
Working beam 760.Moreover, when above-mentioned partition 730 and conductive foil 740 are attached to the sensor printed circuit board 700, above-mentioned work
Make bar 760 and passes through above-mentioned through hole 733,744.Moreover, can be so that above-mentioned partition 730 and conductive foil 740 is sequentially attached to above-mentioned
After sensor pcb 700, above-mentioned working beam 760 can be removed from the sensor printed circuit board 700.According to this
Work process, and above-mentioned partition 730 and conductive foil 740 can be attached to the sensor printed circuit board by guide sections
Accurate location on 700.In other words, the center of the sensor 750 and the gauge hole 731 of above-mentioned partition 730 can be made
Center is aligned.Moreover, the center for the sensor 750 for being set to the sensor printed circuit board 700 and above-mentioned conductive foil can be made
The center of 740 contact site 745 is aligned.
Above-mentioned conductive foil 740 can be formed by the transparent resin film raw material of polyethylene terephthalate (PET) etc., and
And above-mentioned conductive foil 740 can have size corresponding with the sensor printed circuit board 700 and above-mentioned partition 730.
It can be upper with multiple above-mentioned touch sensors 750 moreover, can be formed at the back side (or bottom surface) of above-mentioned conductive foil 740
The conductor lines 741 that portion face and the above-mentioned common contact point 714 for being formed in above-mentioned copper film 712 are all connected with.Above-mentioned conductor lines 741 can
It is formed by the back up silver raw material in above-mentioned conductive foil 740.Moreover, above-mentioned contact site 745 can be formed in above-mentioned conduction
The forward face (or upper side) of foil 740.
It is in contact with the forward face (or upper side) of above-mentioned partition 730 moreover, printing the face of above-mentioned conductor lines 741, meanwhile,
Above-mentioned conductor lines 741 are printed in a manner of being in contact with above-mentioned touch sensor 750 and common contact point 714 to extend.On
Conductor lines 741 are stated to may include:Center conductor line 741a prolongs from the center of conductive foil 740 to the length direction of above-mentioned conductive foil 740
It stretches;And perimeter conductors line 741b, it is connected with above-mentioned center conductor line 741a, relatively the integral face of above-mentioned conductive foil 740, with
Clathrate netted extends.Moreover, above-mentioned center conductor line 741a with the upper side of above-mentioned touch sensor 750 and on
Common contact point 714 is stated to be in contact.
Also, it can be formed in circle at the back side of above-mentioned conductive foil corresponding with the position for forming above-mentioned contact site 745 740
The inner lead 742 of shape also forms clathrate above-mentioned perimeter conductors line 741b in the inside of above-mentioned inner lead 742.And
And above-mentioned center conductor line 741a is connected with above-mentioned inner lead 742.
Also, outer lead 743 can be formed in the outside of above-mentioned inner lead 742, the diameter of said external conducting wire 743 is big
In the diameter of above-mentioned inner lead 742.Above-mentioned inner lead 742 and outer lead 743 are equally as above-mentioned clathrate week
A part of side conductor lines 741b, is formed by silver-colored raw material.
The size of above-mentioned inner lead 742 can be corresponding with the size of above-mentioned ceramic component 752, said external conducting wire 743
Size can be corresponding with the size of above-mentioned metallic plate 751.Therefore, it is installed on accurate location in above-mentioned touch sensor 750
Under state, the edge of above-mentioned ceramic component 752 can be in contact with above-mentioned inner lead 742, and the edge of above-mentioned metallic plate 751 can be with
Said external conducting wire 743 is in contact.
Moreover, above-mentioned center conductor line 741a is from the back center of above-mentioned conductive foil 740 to the length of above-mentioned conductive foil 740
Direction extends, to the above-mentioned multiple outer leads 743 of above-mentioned center conductor line 741a connections and inner lead 742.
Also, above-mentioned conductor lines 741 can make above-mentioned common contact point 714 be connected with the upper side of the sensor 750,
That is, above-mentioned common contact point 714 can be made to be connected with cathode, to make above-mentioned touch sensor 750 be powered.
On the other hand, can occur when by touching to mitigate by above-mentioned clathrate or netted perimeter conductors line 741b
Generated noise when signal.It is led moreover, because not forming clathrate between said external conducting wire 743 and inner lead 742
Body line therefore, can be effectively to above-mentioned touch sensor when pressing above-mentioned front panel 20 come when above-mentioned front panel 20 being made to deform
750 transmit the deformation of above-mentioned front panel 20
On the other hand, it is formed in the forward face of above-mentioned conductive foil corresponding with the position of above-mentioned touch sensor 750 740
Above-mentioned contact site 745.Above-mentioned contact site 745 can state the top of conductive foil 740 to face upward from the top of above-mentioned conductive foil 740
Face mode outstanding is printed in the upper side of above-mentioned conductive foil 740.
Moreover, above-mentioned contact site 745 is formed in position corresponding with above-mentioned touch sensor 750, to can effectively pass
Pass the displacement of the above-mentioned front panel 20 transmitted from above-mentioned touch boost motor 530.For this purpose, above-mentioned contact site 745 can be located at above-mentioned lead
The inside of the inner lead 742 of electric foil 740.The inside that above-mentioned inner lead 742 can be filled in above-mentioned contact site 745 is whole, also,
Preferably, section of the section of above-mentioned contact site 745 at least more than the protruding portion 535 (aftermentioned) of above-mentioned touch boost motor 730.
The center of above-mentioned contact site 745, protruding portion 535 and above-mentioned touch sensor 750 is located on the same line, with this,
When rearward pressurizeing to above-mentioned protruding portion 535 by touch pressure, above-mentioned contact site 745 can be made to press above-mentioned touch sensor
750 central portion.To which above-mentioned touch sensor 750 can accurately and efficiently detect touch operation.
Above-mentioned contact site 745 is in the dead astern of the protruding portion 535 of above-mentioned touch boost motor 530 to 535 side of above-mentioned protruding portion
It is prominent, even if as a result, during making above-mentioned 530 injection molding of touch boost motor, in the projecting height of above-mentioned protruding portion 535
Aspect generates error, and above-mentioned protruding portion 535 can also maintain the contact condition with above-mentioned contact site 745 always.Therefore, when by upper
When stating the deformation of front panel 20 and to pressurize to above-mentioned touch boost motor 530, it can be transmitted at once to above-mentioned touch sensor 750 above-mentioned
The displacement of front panel 20.
In more detail, the contact site 745 that can be formed by specific thickness by means of mode of printing corrects above-mentioned protruding portion
The nuance of 535 height.For this purpose, the thickness of above-mentioned contact site 745 can have with when making above-mentioned touch boost motor 530 be molded
The maximum value for the working tolerances that may occur is corresponding.
Figure 21 is the stereogram for showing to constitute the other structures of the contact site of above-mentioned touch sensor assemblies.
With reference to Figure 21, in addition to contact site 745 is printed in the method for the forward face of above-mentioned conductive foil 740, also it is proposed that such as
Lower contact site 746, that is, before above-mentioned contact site 746 is attached to above-mentioned conductive foil 740 by the individual component that film or thin slice are formed
Portion face forms.
According to above structure, above-mentioned contact site 746 can circular in shape, above-mentioned circular diameter and above-mentioned inner lead
742 diameter is identical.That is, the size of above-mentioned contact site 746 and the above-mentioned ceramic component 752 for constituting above-mentioned touch sensor 750
Size it is identical.Moreover, the size of above-mentioned contact site 746 is more than the size of the protruding portion 535 of above-mentioned touch boost motor 530, from
And when the displacement of above-mentioned touch boost motor 530 occurs, effectively above-mentioned touch can be transmitted to above-mentioned touch sensor 750 help
The displacement of thruster 530.
Above-mentioned contact site 746 is attached to the upper side of above-mentioned conductive foil 740 or above-mentioned contact site by binder
746 are bonded in above-mentioned conductive foil 740 by thermal transfer or deposition mode.Certainly, the thickness of above-mentioned contact site 746 is uniform, and
Above-mentioned contact site 746 can be in contact with the lower end of above-mentioned protruding portion 535.
Figure 22 is the rear isometric view for the touch boost motor for constituting above-mentioned touch sensor assemblies.
With reference to Figure 22, the size of above-mentioned touch boost motor 530 is opposite with the size of opening portion 512 of above-mentioned casing cover 410
It answers, with this, above-mentioned touch boost motor 530 can cover above-mentioned opening portion 512.Moreover, in the left and right sides of above-mentioned touch boost motor 530
The hook 531 that face is formed is combined with being formed by hook groove 514 in above-mentioned casing cover 510, and above-mentioned hook 531 is formed across constant interval
It is multiple.Moreover, above-mentioned hook 531 can forward and backward shake in the inside of above-mentioned hook groove 514.
Moreover, in above-mentioned 530 forming quantity of touch boost motor multiple elasticity corresponding with the quantity of the sensor 750
Variant part.Above-mentioned flexible deformation portion is formed in the position with the touch operation portion 12 of above-mentioned front panel 20 and the sensor 750
Corresponding position, above-mentioned flexible deformation portion formed can flexible deformation forward and backward structure.Therefore, if user of service presses
Above-mentioned touch operation portion 12, then as above-mentioned front panel 20 deforms, above-mentioned touch operation portion 12 rearward moves and becomes to elasticity
It pressurizes in shape portion.Moreover, above-mentioned flexible deformation portion pressurizes to the sensor 750.Moreover, if hand leaves above-mentioned touch operation portion
12, then above-mentioned flexible deformation portion be restored to original position.
In detail, above-mentioned flexible deformation portion may include:First extension 532, from being formed in above-mentioned touch boost motor 530
The one side edge of opening portion extends and is bent;Second extension 533 extends and is bent from another lateral edges of above-mentioned opening portion;
And common part 534, matched in a manner of so that the end of above-mentioned first extension 532 is connected with the end of the second extension 533
It is placed in the center of above-mentioned opening portion.Moreover, above-mentioned second extension 533 can extend in the opposite side of above-mentioned first extension 532.
532 and second extension 533 of above-mentioned first extension is extended in a manner of narrower width so that above-mentioned common part
534 can be mobile to compression aspect and be restored to origin-location, also, 532 and second extension 533 of above-mentioned first extension can be extremely
Flexible deformation occurs more than few bending is primary.532 and second extension 533 of above-mentioned first extension can be along above-mentioned common part
534 edge extends and is bent, and can be symmetrical on the basis of cornerwise face by above-mentioned common part 534.
Moreover, in the remaining area other than above-mentioned first extension 532, the second extension 533 and above-mentioned common portion 534
Domain forms cutting section 536.Moreover, protruding portion 535 can be extended to form at the back side of above-mentioned common part 534.Above-mentioned protruding portion 535
Center in the back side of above-mentioned common part 534, and with the center permutation of the sensor 750.Moreover, above-mentioned protruding portion 535 can
Maintain the state being in contact with the contact site 745 of above-mentioned conductive foil 740.Therefore, if above-mentioned common part 534 rearward moves,
Carry out the central part pressurization to the sensor 750 by above-mentioned contact site 745.
Figure 23 is along the incision stereogram of the 23-23 ' incisions of Fig. 2, and Figure 24 is the enlarged drawing of the part B of Figure 23, Figure 25
For the enlarged drawing of the C portion of Fig. 7.
With reference to Figure 23 to Figure 25, above-mentioned touch sensor assemblies 500 are attached in the state of being installed on aforementioned display device lid 200
It in above-mentioned front panel 20.At this point, above-mentioned cohesive component 25 is formed in the forward face of aforementioned display device lid 200 and above-mentioned casing cover
510 forward face, to after aforementioned display device lid 200 and touch sensor assemblies 500 can be made to be attached to above-mentioned front panel 20
Portion face.
Component 25 is bonded at this point, not formed in above-mentioned touch boost motor 530, above-mentioned touch boost motor 530 abuts directly on
In the rear of above-mentioned front panel 20.In other words, if above-mentioned touch sensor assemblies 500 are being installed on aforementioned display device lid
The back side of above-mentioned front panel 20 is attached in the state of 200, then above-mentioned touch boost motor 530 is rearward pushed open, and is made above-mentioned
Elastomeric element 720 is compressed.Therefore, by the restoring force of above-mentioned elastomeric element 720, to print electricity to the sensor forwards
Road plate 700 pressurizes.As a result, the sensor printed circuit board 700 is tightly attached to above-mentioned touch boost motor 530.
Also, in above-mentioned touch boost motor 530 in the state that above-mentioned casing cover 510 is combined, above-mentioned touch boost motor
530 can forward and backward move by touch pressure.
In the state of as described above, if user of service touches the touch operation portion 12 of above-mentioned forward face 20, before above-mentioned
Panel 20 is subjected to displacement in the region of the above-mentioned front panel 20 touched.Moreover, passing through above-mentioned touch boost motor 530 and above-mentioned
Contact site 745 transmits the displacement of above-mentioned front panel 20 to the sensor 750 at once, is pressurizeed to the sensor 750 with this.
As a result, touch signal occurs in the sensor 750, and the control unit of refrigerator is made to detect that the touch of user of service is grasped
Make.
At this point, above-mentioned touch boost motor 530 can rearward move the touch of front panel 20 by based on user of service,
And further compress above-mentioned elastomeric element 720.
Moreover, if hand leaves above-mentioned touch operation portion 12, the sensor printed circuit board 700 and above-mentioned touch boosting
Device 530 is by the restoring force of above-mentioned elastomeric element 720, the restoring force in the flexible deformation portion of above-mentioned touch boost motor 530 and above-mentioned
The restoring force of the metallic plate 751 of sensor 750 moves forwards again, to being restored to preoperative state.
On the other hand, the elastomeric element 720 for the sensor printed circuit board 700 to be pressurizeed and supported can be to work as
The sensor shell provides uniform pressure to above-mentioned sensor pcb 700 mode when combining forms a variety of shapes
Shape.
Figure 26 is the stereogram for showing to constitute another shape of the elastomeric element of touch sensor assemblies, and Figure 27 is to show structure
At the stereogram of another shape of the elastomeric element of above-mentioned touch sensor assemblies.
With reference to Figure 26, the elastomeric element 721 of the present embodiment is set to the back side of sensor pcb 700.
In detail, above-mentioned elastomeric element 721 may include:Support portion 722 is configured at centered on the sensor 750
Opposite position;And interconnecting piece 723, for connecting above-mentioned support portion 722, with this, above-mentioned elastomeric element 721 can be in " n " font
Section.
Above-mentioned support portion 722 is located at the lateral area of the sensor 750, and does not interfere the work of the sensor 750
Make, above-mentioned interconnecting piece 723 is tightly attached to the rear face of above-mentioned housing main body 520.Therefore, if applying pressure to the sensor 750,
Then above-mentioned elastomeric element 721 can not be tilted to side, and maintain stable state.
With reference to Figure 27, the above-mentioned elastomeric element 724 of the present embodiment is set to the back side of the sensor printed circuit board 700,
And can be in the quadrangular prism form for the inside sky for surrounding the sensor 750.
At this point, the sectional area in the space 726 of the inside of above-mentioned elastomeric element 724 formation can be more than the sensor 750
Sectional area.Therefore, in fact, above-mentioned elastomeric element 724 supports the outside of the sensor 750 not interfere above-mentioned biography with this
The deformation of sensor 750.
Moreover, above-mentioned elastomeric element 724 is in quadrangle cross-sectional profile, with this, the connection of above-mentioned elastomeric element 724 is positioned over
State the both ends of a pair of of support portion of a pair of of installation display unit 715.Therefore, above-mentioned elastomeric element 724 comes not by touch pressure
It is tilted to side, and maintains stable state, to be transmitted to above-mentioned sensor pcb 700 and uniformly touch pressure
Power.
On the other hand, the manufacturing method of the refrigerator doors of the one embodiment of the invention of observation with above structure.
Figure 28 is the exploded perspective view for the installation process for showing aforementioned display device component.
With reference to Figure 28, in order to manufacture above-mentioned door 10, made using the stainless steel of plate as raw material above-mentioned front panel 20 at
Type.At this point, can be formed in above-mentioned front panel 20 for constituting the multiple of above-mentioned display window 11 by etching or laser machining etc.
Above-mentioned first openings 21.Moreover, above-mentioned first openings 21 can be filled by seal member 22, also, above-mentioned the can formed
Above-mentioned diffusion sheet 26 (referring to Fig.1 3) is adhered at the back side of the above-mentioned front panel 20 of one openings 21.Also, it can be by etching, surface
Processing or printing, to make above-mentioned touch operation portion 12 be molded in above-mentioned front panel 20.
If above-mentioned front panel 20 is made to be molded, above-mentioned touch sensor assemblies 500 are assembled.
In order to assemble above-mentioned touch sensor assemblies 500, first, above-mentioned elastomeric element 720 is made to be attached to the sensor
The back side of printed circuit board 700, and above-mentioned partition 730 is made to be attached to the forward face of the sensor printed circuit board 700.And
And after the sensor 750 is arranged in the sensor support portion 713 for being formed in the sensor printed circuit board 700, make
It states conductive foil 740 and is bonded in the sensor printed circuit board 700.
In order to make above-mentioned partition 730 and above-mentioned conductive foil 740 be bonded in sensor pcb 700, in above-mentioned sensing
The setting position of device printed circuit board 700 configures above-mentioned working beam (alignment rod, not shown), makes above-mentioned partition later
730 attachments, make the through hole 733 of above-mentioned partition 730 penetrate through above-mentioned working beam with this.Therefore, above-mentioned partition 730 can be attached to
State the accurate location in the upper side of sensor pcb 700.
At this point, as described above, above-mentioned partition 730 is gradually attached to sensor along the extending direction of above-mentioned venthole 732
Printed circuit board 700, to produced by being discharged during making above-mentioned partition 730 adhere to by above-mentioned venthole 732
Bubble.
After the attachment of above-mentioned partition 730, above-mentioned conductive foil 740 is made to be attached to the upper side of above-mentioned partition 730.
Identical as above-mentioned partition 730, above-mentioned conductive foil 740 is also so that above-mentioned through hole 744 penetrates through the side of above-mentioned working beam
Formula is attached to sensor pcb 700, to make above-mentioned conductive foil 740 be attached to correct position, and makes above-mentioned conductive foil 740
With 730 accurate permutation of partition.
Moreover, the extending direction that above-mentioned conductive foil 740 also states venthole 732 from a side end upwards is gradually attached to sensing
Device printed circuit board 700, to make bubble be discharged from above-mentioned conductive foil 740 and above-mentioned partition 730.
In the state that above-mentioned conductive foil 740 is attached to accurate location, the outer ledge of the sensor 750 can accurately match
It is placed in the region between above-mentioned inner lead 742 and outer lead 743.
After by step as described above, sensor pcb 700 is contained in above-mentioned outer cover body 520, and
The above-mentioned casing cover 510 for being equipped with above-mentioned touch boost motor 530 is set to be combined with outer cover body 520.
If above-mentioned casing cover 510 is combined with outer cover body 520, above-mentioned elastomeric element 720 is compressed, to above-mentioned biography
Sensor printed circuit board 700 pressurizes, as a result, the sensor printed circuit board 700 is tightly attached to above-mentioned touch boost motor 530.
At this point, above-mentioned touch boost motor 530 is installed in a manner of it can move forward and backward, the forward face of above-mentioned touch boost motor 530
It is more more prominent than the forward face of above-mentioned casing cover 510.
The above-mentioned touch sensor assemblies 500 for completing assembling are placed on the receiving portion 210 of aforementioned display device lid 200, on
Shell engaging portion 511 is stated to be combined with the edge of the upper side of above-mentioned receiving portion 210, with this, above-mentioned touch sensor assemblies 500
Maintain the state for being fixed on aforementioned display device lid 200.
In the state of as described above, it bonds component 25 and is attached to the forward face of aforementioned display device lid 200 and above-mentioned shell
The forward face of lid 510, using above-mentioned cohesive component 25, aforementioned display device lid 200 and touch sensor assemblies 500 are attached to together
The rear of above-mentioned front panel 20.
If aforementioned display device lid 200 is attached to above-mentioned front panel 20, made in a manner of it can accommodate aforementioned display device lid 200
Said frame 100 is fixed on above-mentioned front panel 20.Moreover, above-mentioned door lining 30 is made to be combined with the rear of above-mentioned front panel, and
Above-mentioned decorative element 40 is set to be combined with the upper end of above-mentioned front panel 20 and door lining 30.In this case, by above-mentioned door 10
Inside injection expanding foam solution form above-mentioned heat-insulating material 24.Above-mentioned heat-insulating material 24 fills the inside in addition to said frame 100
The whole interior space of above-mentioned door 10 except region, and steadily fix said frame 100.
Pacify in aforementioned display device frame 400 in the state that the inside of above-mentioned door 10 is molded making above-mentioned heat-insulating material 24
It loads onto and states display assembly 300.
In detail, in the state that aforementioned display device your component 300 is installed on aforementioned display device frame 400, operating personnel
Connect 610 and second cable connector 620 of above-mentioned first cable connector, above-mentioned first cable connector 610 and above-mentioned sensing
Device printed circuit board 700 is connected, and above-mentioned second cable connector 320 is connected with aforementioned display device printed circuit board 310.
After so that above-mentioned heat-insulating material 24 is molded, make 610 and second cable connector 620 of above-mentioned first cable connector
It is connected.It is therefore possible to prevent the electrostatic damage occurred during keeping heat-insulating material molding by filling-foam liquid is above-mentioned
Sensor controller 330.
After so that above-mentioned first cable connector 610 is connected with the second cable connector 620, pass through above-mentioned insert port
41, so that aforementioned display device frame 400 is inserted in the inside of above-mentioned door 10.Moreover, being made using said frame handle 420 above-mentioned aobvious
Show that device frame 400 is fully inserted into aforementioned display device lid 200.
If aforementioned display device frame 400 is fully inserted into aforementioned display device lid 200, aforementioned display device component 300 is complete
It is tightly attached to the rear of aforementioned display device lid 200.Moreover, above-mentioned first openings 21, the second openings 220 and third openings
321 permutation and are interconnected forward and backward.
After so that aforementioned display device frame 400 is inserted in aforementioned display device lid 200, by being installed in above-mentioned insert port 41
Above-mentioned insertion lid 42 closes above-mentioned insert port 41.Moreover, making the upper end of said frame handle 420 by above-mentioned insertion lid
42 fix, to complete the manufacture of above-mentioned door 10.
On the other hand, the door based on the present invention is not limited to above-described embodiment, and is proposed that various other embodiments.
One more embodiment of the present invention is characterized in that, is touched boost motor and is attached directly to aforementioned display device lid, also, is outer
Shell main body is combined with aforementioned display device lid, and the space for accommodating sensor pcb is formed with this.
In one more embodiment of the present invention, it is poor only to exist in the configuration aspects of display cover and touch sensor assemblies
It is different, and other structures all same, identical reference numeral is used to identical structure, and will omit to it is mutually isostructural specifically
It is bright.
Figure 29 is the exploded perspective view of the structure of the display cover and sensor outer housing that show yet another embodiment of the invention.
With reference to Figure 29, it is attached with display cover 200 in the rear of the front panel 20 of the door 10 of yet another embodiment of the invention,
Aforementioned display device lid 200 is combined with touch sensor assemblies 500, and above-mentioned touch sensor assemblies 500 include touching boost motor
530, sensor pcb 700 and housing main body 520.
In the side of aforementioned display device lid 200 multiple second through holes 220 are formed, from forming the second openings 220
The other side for the aforementioned display device lid 200 that region is separated to side forms boost motor insertion section 250.Above-mentioned boost motor insertion section
250 with size openings corresponding with above-mentioned touch boost motor 530.Moreover, can be formed at the edge of above-mentioned boost motor insertion section 250
The extension muscle 251 rearward extended.Moreover, above-mentioned extension muscle 251 is for guiding the front-rear direction of above-mentioned touch boost motor 530 to move
It is dynamic.
Certainly, also can the edge of the receiving portion 210 of disclosed display cover 200 in the above-described embodiments formed rearward
The extension muscle of extension.It is different from above-mentioned extension muscle 251 in the extension muscle that the two sides of above-mentioned receiving portion 210 rearward extend, on
It states and extends above-mentioned touch sensor assemblies of the executable support of muscle 500 what the two sides of above-mentioned receiving portion 210 rearward extended
The function of side surface part.
Moreover, the inner peripheral surface in above-mentioned boost motor insertion section 250 forms boost motor support portion 252 that is prominent and extending, from
And it can be in the above-mentioned touch boost motor of posterior support 530 of above-mentioned touch boost motor 530.Above-mentioned boost motor support portion 252 can be in
The 513 identical shape of support portion of boost motor shown in Figure 14, and can perform identical function.
A part for above-mentioned boost motor support portion 252 is cut open to form hook groove as hook groove 514 as shown in figure 14
253.It is rearward moved along above-mentioned hook groove 253 moreover, being formed by hook 531 in the two sides of above-mentioned touch boost motor 530, with
This makes above-mentioned hook 531 be stuck in the back side of above-mentioned extension muscle 251.Above-mentioned hook groove 523 can rearward be open completely, to make above-mentioned touch
Boost motor 530 moves forward and backward by touch pressure.
The rear of above-mentioned boost motor insertion section 250 is combined with housing main body 520.Above-mentioned housing main body 520 is shown with above-mentioned
Show that the rear of device lid 200 is combined, with this, the space for accommodating sensor pcb 700 can be formed.
For this purpose, forming multiple ontology engaging portions 521, multiple above-mentioned bulk junctions in the left and right side of above-mentioned housing main body 520
Conjunction portion 521 can be in hook-shaped.It can be formed and be used in the rear of aforementioned display device lid corresponding with above-mentioned ontology engaging portion 521 200
In the engaging portion (not shown) for making aforementioned display device lid 200 be combined with above-mentioned ontology engaging portion 521.
Moreover, forming installation guide 523 in the inside of above-mentioned outer cover body 520, above-mentioned installation guide 523 is for drawing
Multiple elastomeric elements 720 of support the sensor printed circuit board 700 are led, above-mentioned installation guide 523 is protruded with muscle shape
And extend.As shown in figure 14, when above-mentioned elastomeric element 720 is compressed, above-mentioned installation guide 523 prevents above-mentioned elastomeric element
720 tilt to side.
Above-mentioned touch sensor 750 is configured in the forward face of the sensor printed circuit board 700, is configuring above-mentioned touch
The forward face of the sensor printed circuit board 700 of sensor 750 bonds above-mentioned partition 730 and conductive foil 740 successively.And
And contact site 745 is formed on above-mentioned conductive foil corresponding with the position of above-mentioned touch sensor 750 740.
The sensor printed circuit board 700 is contained in the inside of above-mentioned housing main body 520, when above-mentioned housing main body 520
When aforementioned display device lid 200 is combined, pressurizeed to the sensor printed circuit board 700 by above-mentioned elastomeric element 720.Cause
This, the sensor printed circuit board 700 moves forwards, come make the forward face of the sensor printed circuit board 700 with it is upper
State and touch boost motor 530 and be in contact, the forward face of above-mentioned touch boost motor 530 than aforementioned display device lid 200 forward face more
It is prominent.As a result, above-mentioned touch boost motor 530 can be maintained firmly to be tightly attached to the state at 20 back side of above-mentioned front panel.
It, can be in addition to above-mentioned in aforementioned display device lid 200 in the state of being combined with above-mentioned touch sensor assemblies 500
Remainder setting except boost motor insertion section 250 bonds component 25.Moreover, by above-mentioned cohesive component 25, above-mentioned display
Device lid 200 is attached to the rear of above-mentioned front panel 20.Although at this point, above-mentioned touch boost motor 530 not with above-mentioned front panel 20
It is bonding, but the state for being tightly attached to above-mentioned front panel 20 is maintained always.
On the other hand, the structure of the protruding portion 535 of shown above-mentioned touch boost motor 530 is equally applicable in fig. 25
In the present embodiment.Moreover, the end of the protruding portion 535 of above-mentioned touch boost motor 530 and the forward face of above-mentioned contact site 745 can begin
The state being in contact is maintained eventually, and the back side of above-mentioned contact site 745 can maintain the shape for being tightly attached to above-mentioned touch sensor 750
State.Therefore, when the displacement for touch operation portion 12 when touch operation occurred can be by above-mentioned protruding portion 535 and contact site
745 transmit to above-mentioned touch sensor 750 at once.
On the other hand, the Men Bingbu based on the present invention is confined to above-described embodiment, and can provide various other embodiments.
In another embodiment of the invention, it can have the following structure, that is, do not have additional touch boost motor, also,
The touch operation portion of above-mentioned front panel can be made directly to be in contact with the contact site of above-mentioned conductive foil.
In another embodiment of the invention, it is only had differences in the configuration aspects of touch sensor assemblies, and other are tied
Structure all same uses identical reference numeral to identical structure, and will omit to mutually isostructural detailed description.
Figure 30 is the sectional view of the structure for the touch sensor assemblies for showing another embodiment of the present invention.
With reference to Figure 30, in the touch sensor assemblies 501 based on another embodiment of the present invention, sensor outer housing is being formed
Housing main body 520 inside accommodate sensor pcb 700, at this point, being flexibly supported by above-mentioned elastomeric element 720 above-mentioned
The back side of sensor pcb 700.
Moreover, the forward face in the sensor printed circuit board 700 forms the copper film 712 for constituting circuit,
The installation site of above-mentioned touch sensor 750 forms the sensor support portion 713 for being in a groove shape state.Above-mentioned touch sensor 750
The back side at the edge of metallic plate 751 is supported by the sensor support portion 713.
Adhere to partition 730 in the upper side of the sensor printed circuit board 700, in the upper side weight of above-mentioned partition 730
New attachment conductive foil 740.By above-mentioned partition 730 and conductive foil 740, above-mentioned touch sensor 750 is printed in the sensor
Stationary state is maintained on circuit board 700.
Above-mentioned touch sensor assemblies 501 can be installed in above-mentioned front panel 20, at this point, above-mentioned touch sensor assemblies 501
Forward face can be tightly attached to the back side of above-mentioned front panel.
It is abutted directly in the structure of above-mentioned conductive foil 740 moreover, the back side of above-mentioned front panel 20 can have.At this point, contact
Portion 747 can protrude the forward face for being formed in above-mentioned conductive foil 740 with defined thickness, and above-mentioned contact site 747 can be to be added
The state of pressure is tightly attached to the back side of above-mentioned front panel 20.
Above-mentioned contact site 747 is located in the region that above-mentioned front panel 20 is formed by above-mentioned touch operation portion 12, on
The center of the center of stating contact site 747 and above-mentioned touch sensor 750 permutation forward and backward.Moreover, above-mentioned contact site 747
Size is less than the size of the ceramic component 752 of above-mentioned touch sensor 750, to when carrying out touch behaviour to above-mentioned front panel 20
When making, the displacement of above-mentioned front panel 20 can be made to concentrate on the center of above-mentioned ceramic component 752.Therefore, above-mentioned touch sensor 750
The touch action to above-mentioned front panel 20 can effectively be detected.
On the other hand, the touch sensor assemblies of one embodiment of the invention are not only arranged at the door based on above-described embodiment,
But also set on the refrigerator of variform.Touch sensor assemblies described below have identical as above-mentioned touch sensor assemblies
Structure, therefore, to identical structural element use identical reference numeral, and will omit to mutually isostructural detailed description.
Figure 31 is to show that the touch sensor assemblies of one embodiment of the invention are installed on point of the structure of the door of other forms
Solve stereogram.
With reference to Figure 31, the door 50 for installing the touch sensor assemblies 500 of one embodiment of the invention may include:Gate housing 51,
Heat-insulating material is accommodated in inside;A pair of of lid decoration 52 is configured at the both sides up and down of above-mentioned gate housing 51;One offside decoration
53, it is configured at the left and right sides of above-mentioned gate housing 51, and be combined with door handle 54;And front panel 55, with above-mentioned gate housing
51 forward face is combined.Above-mentioned front panel 55 can be above-mentioned to be fixed on by 52 and one offside decoration 53 of a pair of of lid decoration
The forward face of gate housing 51.
Above-mentioned front panel 55 can be formed by tempered glass or raw materials for plastics production, can be printed in the forward face of above-mentioned front panel 55
Film.
The display window 56 that the working condition for showing above-mentioned refrigerator can be formed in above-mentioned front panel 55, can be in above-mentioned display
The side of window 56 forms touch operation portion 57.Above-mentioned display window 56 can be in the transparent or semitransparent form for making light projection.Moreover, can
Above-mentioned touch operation portion 57 is formed by printing or surface processing.Above-mentioned display window 56 and touch operation portion 57 with before
Display window 11 and touch operation portion 12 illustrated in embodiment is identical.
It can be close at the back side of above-mentioned front panel corresponding with the rear of above-mentioned display window 56 55 and fix display cover
200.Such as the explanation conducted in implementation before, touch sensor assemblies 500 and upper can be installed in aforementioned display device lid 200
State display assembly 300.This embodiment is characterized in that aforementioned display device lid 200 is independent in a manner of no said frame 100
It is configured between above-mentioned gate housing 51 and above-mentioned front panel 55.For this purpose, above-mentioned front panel 55 can be by above-mentioned 52 He of lid decoration
Side decoration 53, to separate distance corresponding with the thickness of aforementioned display device lid 200 from the forward face of above-mentioned gate housing 51.
If aforementioned display device lid 200 is attached to the back side of above-mentioned front panel 55, exported from aforementioned display device component 300
Light by above-mentioned display window 56 come to external irradiation, to can be to the external working condition for showing above-mentioned refrigerator.Moreover, above-mentioned
Touch sensor assemblies 500 are tightly attached to the back side in above-mentioned touch operation portion 57, with this, if user of service touches above-mentioned touch operation
Portion 57 then identifies above-mentioned touch operation.
Figure 32 is to show that the touch sensor assemblies of one embodiment of the invention are installed on the decomposition of the structure of air regulator
Stereogram.
As shown, the indoor unit 60 of the air regulator of the touch sensor assemblies 500 equipped with one embodiment of the invention
It may include:Pedestal 61;Rear casing 62 is configured at the rear side of the upper side of above-mentioned pedestal 61;And front casing 63, it is configured at
The front side of the upper side of above-mentioned pedestal 61.Moreover, external component 64 can be configured in the forward face of above-mentioned front casing 63.
It is combined in above-mentioned pedestal 61, rear casing by above-mentioned pedestal 61, rear casing 62 and front casing 63
62 and the inside of front casing 63 form defined space.The sucking and discharge for air are formed in the inside in above-mentioned space
Air Blast fan and flow path, and accommodate the compression of the filter assemblies, composition freeze cycle that are filtered for the air to sucking
Machine, condenser, expansion valve, evaporator etc..
Moreover, above-mentioned indoor unit 60 may include:Suction inlet 631, for sucking room air;And multiple outlets 632,
For the sky to indoor discharge after the room air sucked by above-mentioned suction inlet 631 carries out heat exchange with above-mentioned evaporator
Gas.
On the other hand, above-mentioned external component 64 can be installed on above-mentioned front casing 63 in a manner of rotatable and dismounting.
In detail, in the top and bottom of above-mentioned front casing 63 hinge 601 can be installed respectively, above-mentioned hinge 601 is inserted into above-mentioned
The upper side of the side end of external component 64 and the bottom surfaces of side end.Moreover, above-mentioned external component 64 can be by above-mentioned hinge
601 are pivotally connected with above-mentioned front casing 63.Moreover, above-mentioned external component 64 can divide from above-mentioned hinge 601
From.
Therefore, by the rotation or dismounting of above-mentioned external component 64, the forward face of above-mentioned front casing 63 can be opened, and can
Repair and maintenance are set to the front component of above-mentioned front casing 63.Certainly, above-mentioned external component 64 is also not excluded for be fixedly installed in
Above-mentioned front casing 63.
The transparent display window of the working condition for showing above-mentioned air regulator can be formed in above-mentioned external component 64
65, it can be processed by printing or surface, to make touch operation portion 66 be formed in the side of above-mentioned display window 65.
Moreover, forming display your component 67 at the rear of aforementioned display device window 65, radiated from aforementioned display device component 67
Light by above-mentioned display window 65 come to external irradiation, so as to show the operation information of above-mentioned indoor unit.Aforementioned display device group
Part 67 is made of the combination of light emitting diode, and information can be provided in the form of number or symbol, and aforementioned display device component may be used also
It is made of liquid crystal display, so as to provide information by picture or video.
Also, touch sensing can be adhered in the rear of above-mentioned external component corresponding with above-mentioned touch operation portion 66 64
Device assembly 500.Above-mentioned touch sensor assemblies 500 can be bonded by the bonding component of such as binder or double faced adhesive tape, above-mentioned to touch
Above-mentioned touch operation portion 66 can be tightly attached to by touching sensor module 500, to identify the touch operation of user of service.
Figure 33 is the exploded perspective view that the touch sensor assemblies of one embodiment of the invention are installed on the structure of washing machine.
With reference to Figure 33, the washing machine 70 of the touch sensor assemblies 500 equipped with one embodiment of the invention may include:Ontology
71, it is used to form appearance;Outer barrel is contained in the inside of above-mentioned ontology 71, for storing washings;Roller, with rotatable side
Formula is configured on the inside of outer barrel to accommodate washings;Driving device transmits the rotary force of the rotation for making roller;Washings supply
To device, washings are supplied to above-mentioned outer barrel;And discharger, for washings to be discharged.
On the other hand, a part for the forward face of above-mentioned ontology 71 is open, and therefore, can be put into washing to above-mentioned roller
The opening of object, above-mentioned ontology 71 is covered by door 72.Above-mentioned door 72 is pivotally installed on above-mentioned ontology 71.
Can the external component 73 of plate be set in the upside of the forward face of the above-mentioned ontology 71 in addition to above-mentioned door 72.And
And display window 74 and touch operation portion 75 can be formed in above-mentioned external component 73.
Above-mentioned display window 74 shows the working condition of above-mentioned washing machine 70, and can be by touching to above-mentioned touch operation portion 75
Operation is touched to make above-mentioned washing machine 70 run and select the method for operation.Certainly, it can be arranged in the forward face of above-mentioned ontology 71 and be used for
The ring-shaped handle 76 of the knob form of washing machine 70 is operated, above-mentioned ring-shaped handle 76 can penetrate through above-mentioned external component 73 to outside
Expose.
Moreover, display assembly 77 is set at the rear of above-mentioned display window 74, and can be by aforementioned display device component 77
To 74 irradiation light of above-mentioned display window, the job information of above-mentioned washing machine 70 is presented with this.Aforementioned display device component 77 is by luminous two
The combination of pole pipe is constituted, and with this, information can be provided in the form of number or symbol, aforementioned display device component can also be by liquid crystal
Display screen is constituted, and with this, information is provided by picture or video.
Also, touch sensing can be adhered in the rear of above-mentioned external component corresponding with above-mentioned touch operation portion 75 73
Device assembly 500.Above-mentioned touch sensor assemblies 500 can be bonded by the bonding component of binder or double faced adhesive tape etc., above-mentioned to touch
It touches sensor module 500 and is tightly attached to above-mentioned touch operation portion 75, to the touch operation of recognizable user of service.
Figure 34 is to show that the touch sensor assemblies of one embodiment of the invention are installed on the exploded perspective of the structure of dish-washing machine
Figure.
With reference to Figure 34, the dish-washing machine 80 of the touch sensor assemblies 500 of one embodiment of the invention is equipped with by being substantially in positive six
The ontology 81 of face body forms shape.
Although being not been shown in detail, cavity, bracket component water supply installation and draining can be internally provided in above-mentioned ontology 81
Device etc., above-mentioned cavity are used for collecting post's tableware to be washed, and above-mentioned bracket component is introduced and drawn in above-mentioned cavity, above-mentioned
Bracket component is used to supply washings to the inside of cavity for placing tableware, above-mentioned water supply installation, and above-mentioned drainage arrangement is used for
Water after discharge washing.
Moreover, door 82 can be arranged in above-mentioned dish-washing machine ontology 81.Above-mentioned door 82 optionally covers above-mentioned ontology 81
The forward face of opening, and in the state of closing above-mentioned door 82, above-mentioned door 82 then forms the outer of the forward face of above-mentioned dish-washing machine 80
It sees.
Above-mentioned door 82 may include above-mentioned department and lower gate, when operating above-mentioned lower gate, can be opened in a manner of linkage
Close Shu Shang departments.Moreover, the handle 83 for being opened and closed above-mentioned door 82 can be arranged in above-mentioned lower gate.
In the forward face of above-mentioned door 82, that is, can adhere in the forward face of upper department and lower gate and be used to form outside dish-washing machine
The external component 84 seen.
The transparency display window 85 that the working condition for showing washed-up 80 can be formed in above-mentioned external component 84, touches
Operation portion 86 can be formed in the side of above-mentioned display window 85 by printing or surface processing.
Moreover, display assembly 87 is set at the rear of above-mentioned display window 85, it is upward by aforementioned display device component 87
85 irradiation light of display window is stated, the job information of dish-washing machine 80 is presented with this.Aforementioned display device component 87 by light emitting diode group
It closing and constitutes, with this, information can be provided in the form of number or symbol, aforementioned display device component is also made of liquid crystal display,
With this, information can be provided by picture or video.
Also, touch sensing can be adhered in the rear of above-mentioned external component corresponding with above-mentioned touch operation portion 86 84
Device assembly 500.Above-mentioned touch sensor assemblies 500 can be bonded by the bonding component of such as binder or double faced adhesive tape, above-mentioned to touch
It touches sensor module and is tightly attached to above-mentioned touch operation portion, the touch operation of user of service is identified with this.
Figure 35 is to show that the touch sensor assemblies of one embodiment of the invention are installed on the exploded perspective of the structure of cooking machine
Figure.
With reference to Figure 35, the cooking machine 90 of the touch sensor assemblies 500 of one embodiment of the invention is equipped with by being substantially in positive six
The ontology 91 of face body forms shape.
Although being not been shown in detail, above-mentioned cooking machine ontology 91 can be equipped with cavity, heating unit or magnetron and fan
Component etc., above-mentioned cavity are used for the food to be cooked of collecting post, above-mentioned heating unit or magnetron for cooking in above-mentioned cavity
The food in portion, convection current of the said fans component for the inside of cavity.
Moreover, door 92 can pivotally be arranged in above-mentioned cooking machine ontology 91.Above-mentioned door 92 optionally hides
The forward face of the opening of above-mentioned cooking machine ontology 81 is covered, and in the state of closing above-mentioned door 92, above-mentioned door 92 then forms above-mentioned
The appearance of the forward face of cooking machine 80.
Above-mentioned door 92 is combined with above-mentioned 91 hinge of cooking machine ontology, and with this, above-mentioned door 92 can in the lateral direction or upper and lower
To rotation, and optionally it is opened and closed the forward face of the opening of above-mentioned cooking machine 90.
Moreover, the handle 93 for above-mentioned door 92 being opened and closed operation is arranged in above-mentioned door 92.Moreover, can be in above-mentioned door
92 forward face setting is used to form the external component 94 of the appearance of the forward face of above-mentioned door 92.The not office of above-mentioned external component 94
It is limited to above-mentioned door 92, can also forms the side of cooking machine ontology 91.
On the other hand, the transparent aobvious of the working condition for showing above-mentioned cooking machine 90 can be formed in above-mentioned external component 94
Show that window 95, touch operation portion 96 can be formed in the side of above-mentioned display window 95 by printing or surface processing.
Moreover, display assembly 97 is set at the rear of above-mentioned display window 95, it is upward by aforementioned display device component 97
95 irradiation light of display window is stated, the job information of cooking machine is presented with this.Aforementioned display device component 97 by light emitting diode combination
It constituting, with this, information can be provided in the form of number or symbol, aforementioned display device component is also made of liquid crystal display, with
This, can provide information by picture or video.
Also, touch sensor assemblies 500 can be made to be attached to above-mentioned external portion corresponding with above-mentioned touch operation portion 96
The rear of part 94.Above-mentioned touch sensor assemblies 500 can be bonded by the bonding component of binder or double faced adhesive tape etc., above-mentioned
Touch sensor assemblies 500 can identify the touch operation of user of service by being tightly attached to above-mentioned touch operation portion 96.
Claims (31)
1. a kind of touch sensor assemblies, which is characterized in that including:
Sensor outer housing, after being configured at the external component for being provided with the operation portion for making user of service's touch of household electrical appliance
Portion face;
Sensor pcb is set to the inside of the sensor shell, in the upper side of the sensor printed circuit board
Form copper film;
Touch sensor, above-mentioned touch sensor include metallic plate and ceramic component, the bottom surfaces of above-mentioned metallic plate and above-mentioned copper
Film is in contact, and above-mentioned ceramic component is installed on the upper side of above-mentioned metallic plate;
Partition forms gauge hole, the lower part of above-mentioned partition in position corresponding with above-mentioned metallic plate and above-mentioned ceramic component
Face is attached to the surface of above-mentioned copper film;
Conductive foil, the inner lead being powered with above-mentioned ceramic component and the outer lead being powered with above-mentioned metallic plate are printed in above-mentioned
The bottom surfaces of conductive foil, above-mentioned conductive foil are attached to the upper side of above-mentioned partition;And
Contact site protrudes to be formed in the upper side of above-mentioned conductive foil corresponding with the position of above-mentioned inner lead,
Above-mentioned contact site is the printing layer for being printed in above-mentioned conductive foil or the thin slice including being attached to above-mentioned conductive foil.
2. touch sensor assemblies according to claim 1, which is characterized in that
Above-mentioned contact site, above-mentioned ceramic component and above-mentioned metallic plate are rounded,
The diameter of above-mentioned metallic plate is more than the diameter of above-mentioned ceramic component.
3. touch sensor assemblies according to claim 2, which is characterized in that the diameter of above-mentioned contact site is less than above-mentioned pottery
The diameter of porcelain part.
4. touch sensor assemblies according to claim 1, which is characterized in that
Further include in the sensor support portion that the sensor printed circuit board is formed,
The sensor is positioned over the sensor support portion.
5. touch sensor assemblies according to claim 4, which is characterized in that
The sensor support portion includes slot, and the diameter of above-mentioned slot is less than the diameter of above-mentioned metallic plate,
The upper side of the sensor support portion is covered by above-mentioned metallic plate.
6. touch sensor assemblies according to claim 5, which is characterized in that the diameter of the sensor support portion is more than
The diameter of above-mentioned ceramic component.
7. touch sensor assemblies according to claim 5, which is characterized in that
The edge of the bottom surfaces of above-mentioned metallic plate is in contact with above-mentioned copper film,
The central part of above-mentioned metallic plate is by the inside to the touch pressure that above-mentioned contact site applies to above-mentioned sensor support portion
Bending.
8. touch sensor assemblies according to claim 1, which is characterized in that the sensor shell includes:
Housing main body, for placing the sensor printed circuit board;
Casing cover is combined with the upper side of above-mentioned housing main body.
9. touch sensor assemblies according to claim 8, which is characterized in that further include touching boost motor, above-mentioned touch
Boost motor is installed in the opening portion that above-mentioned casing cover is formed, and is applied to the transmission of above-mentioned contact site by upper and lower directions movement
The touch pressure in aforesaid operations portion.
10. touch sensor assemblies according to claim 9, which is characterized in that including protruding portion, above-mentioned protruding portion from
The back side of the corresponding above-mentioned touch boost motor in position of above-mentioned contact site is outstanding to be in contact with above-mentioned contact site.
11. touch sensor assemblies according to claim 1, which is characterized in that
Further include the conductor lines for the bottom surfaces for being formed in above-mentioned conductive foil,
Above-mentioned conductor lines include:
Perimeter conductors line is formed in the outside of the inside and said external conducting wire of above-mentioned inner lead with netted or clathrate;
Center conductor line extends from the center of above-mentioned conductive foil to the length direction of above-mentioned conductive foil, is led to connect above-mentioned inside
Line and outer lead.
12. touch sensor assemblies according to claim 11, which is characterized in that above-mentioned inner lead and said external are led
Line is a part for above-mentioned conductor lines.
13. touch sensor assemblies according to claim 1, which is characterized in that
Including:
First through hole is formed in the one side edge of above-mentioned partition;And
Second through hole is formed in another lateral edges of above-mentioned partition,
Above-mentioned first through hole and above-mentioned second through hole are separated to the length direction of above-mentioned partition.
14. touch sensor assemblies according to claim 13, which is characterized in that
Including:
Third through hole is formed in the one side edge of above-mentioned conductive foil, and opposite with above-mentioned first through hole of above-mentioned partition
It answers;
4th through hole, is formed in another lateral edges of above-mentioned conductive foil, and with the above-mentioned second through hole phase of above-mentioned partition
It is corresponding.
15. a kind of door, which is characterized in that
Including:
The operation portion for making user of service touch is arranged in external component;
Sensor outer housing is configured at the bottom surfaces of above-mentioned external component;
Boost motor is touched, is combined with the sensor shell in a manner of it can move, the upper side of above-mentioned touch boost motor
It is in contact with the bottom surfaces of above-mentioned external component, protruding portion is formed in the bottom surfaces of above-mentioned touch boost motor;
Sensor pcb is configured at the inside of the sensor shell, on the top of the sensor printed circuit board
Face forms copper film;
Touch sensor, above-mentioned touch sensor include metallic plate and ceramic component, the bottom surfaces of above-mentioned metallic plate and above-mentioned copper
Film is in contact, and above-mentioned ceramic component is installed on the upper side of above-mentioned metallic plate;
Partition forms gauge hole, the lower part of above-mentioned partition in position corresponding with above-mentioned metallic plate and above-mentioned ceramic component
Face is attached to the surface of above-mentioned copper film;
Conductive foil, the inner lead being powered with above-mentioned ceramic component are printed in the bottom surfaces of above-mentioned conductive foil, be attached to it is above-mentioned every
The upper side of piece;And
Contact site protrudes to be formed in the upper side of above-mentioned conductive foil corresponding with the position of above-mentioned inner lead,
Above-mentioned contact site is in contact with above-mentioned protruding portion.
16. door according to claim 15, which is characterized in that the sensor shell includes:
Housing main body, for placing the sensor printed circuit board;And
Casing cover is combined with the upper side of above-mentioned housing main body.
17. door according to claim 16, which is characterized in that formed in above-mentioned casing cover for installing above-mentioned touch boosting
The opening portion of device.
18. door according to claim 17, which is characterized in that further include boost motor support portion, above-mentioned boost motor support portion
It is protruded from the medial surface of above-mentioned opening portion, above-mentioned boost motor support portion along the shape of above-mentioned opening portion by surrounding above-mentioned opening
Portion supports above-mentioned touch boost motor with this.
19. door according to claim 18, which is characterized in that
Further include multiple hooks, above-mentioned hook is from the edge of the two sides of above-mentioned touch boost motor to the thickness side of above-mentioned touch boost motor
To extension,
Multiple hook grooves for accommodating above-mentioned hook are formed in above-mentioned boost motor support portion.
20. door according to claim 16, which is characterized in that
Above-mentioned touch boost motor includes flexible deformation portion,
Above-mentioned flexible deformation portion includes:
First extension extends and is bent from the one side of the opening portion of above-mentioned touch boost motor;
Second extension extends and is bent from the another side of above-mentioned opening portion;And
Common part, for connecting above-mentioned first extension and the second extension,
Above-mentioned protruding portion is formed in the center of above-mentioned common part.
21. door according to claim 16, which is characterized in that
Further include:
Multiple elastomeric elements are attached to the bottom surfaces of the sensor printed circuit board;And
Installation guide is protruded from the bottom faces of above-mentioned housing main body, to support the side of above-mentioned multiple elastomeric elements,
Above-mentioned multiple elastomeric elements configure in such a way that the lateral area in the sensor is opposite.
22. door according to claim 21, which is characterized in that
Above-mentioned contact site, above-mentioned ceramic component and above-mentioned metallic plate are rounded,
The diameter of above-mentioned metallic plate is more than the diameter of above-mentioned ceramic component.
23. door according to claim 22, which is characterized in that the diameter of above-mentioned contact site is less than the straight of above-mentioned ceramic component
Diameter.
24. door according to claim 15, which is characterized in that
Further include sensor support portion, the sensor support portion is formed in the sensor printed circuit board,
The sensor is positioned over the sensor support portion.
25. door according to claim 24, which is characterized in that
The sensor support portion includes slot, and the diameter of above-mentioned slot is less than the diameter of above-mentioned metallic plate,
The upper side of the sensor support portion is covered by above-mentioned metallic plate.
26. door according to claim 25, which is characterized in that the diameter of the sensor support portion is more than above-mentioned ware
The diameter of part.
27. door according to claim 25, which is characterized in that
The edge of the bottom surfaces of above-mentioned metallic plate is in contact with above-mentioned copper film,
The central part of above-mentioned metallic plate is by the inside to the touch pressure that above-mentioned contact site applies to above-mentioned sensor support portion
Bending.
28. door according to claim 15, which is characterized in that
Further include:
Outer lead, the diameter of said external conducting wire are more than the diameter of above-mentioned inner lead, and said external conducting wire is above-mentioned to surround
The form of inner lead is formed in the bottom surfaces of above-mentioned conductive foil;And
Conductor lines are formed in the bottom surfaces of above-mentioned conductive foil,
Above-mentioned conductor lines include:
Perimeter conductors line is formed in the outside of the inside and said external conducting wire of above-mentioned inner lead with netted or clathrate;
Center conductor line extends from the center of above-mentioned conductive foil to the length direction of above-mentioned conductive foil, is led to connect above-mentioned inside
Line and outer lead.
29. door according to claim 28, which is characterized in that above-mentioned inner lead and said external conducting wire are above-mentioned conductor
A part for line.
30. door according to claim 15, which is characterized in that
Including:
First through hole is formed in the one side edge of above-mentioned partition;And
Second through hole is formed in another lateral edges of above-mentioned partition,
Above-mentioned first through hole and above-mentioned second through hole are separated to the length direction of above-mentioned partition.
31. door according to claim 30, which is characterized in that
Including:
Third through hole is formed in the one side edge of above-mentioned conductive foil, and opposite with above-mentioned first through hole of above-mentioned partition
It answers;
4th through hole, is formed in another lateral edges of above-mentioned conductive foil, and with the above-mentioned second through hole phase of above-mentioned partition
It is corresponding.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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KR10-2014-0186534 | 2014-12-22 | ||
KR1020140186534A KR101659181B1 (en) | 2014-12-22 | 2014-12-22 | Tuch sensor assembly and refrigerator door with Tuch sensor assembly |
Publications (2)
Publication Number | Publication Date |
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CN105718102A CN105718102A (en) | 2016-06-29 |
CN105718102B true CN105718102B (en) | 2018-10-30 |
Family
ID=55077352
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CN201510964815.6A Active CN105718102B (en) | 2014-12-22 | 2015-12-21 | Touch sensor assemblies and door with touch sensor assemblies |
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US (1) | US10267556B2 (en) |
EP (1) | EP3037757B1 (en) |
KR (1) | KR101659181B1 (en) |
CN (1) | CN105718102B (en) |
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EP3037757A1 (en) | 2016-06-29 |
US20160178276A1 (en) | 2016-06-23 |
EP3037757B1 (en) | 2019-10-09 |
KR20160076391A (en) | 2016-06-30 |
CN105718102A (en) | 2016-06-29 |
US10267556B2 (en) | 2019-04-23 |
KR101659181B1 (en) | 2016-09-30 |
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